Beispiel #1
0
        /// <summary>
        /// Create a new ExtendedScrollBar.
        /// </summary>
        public ExtendedScrollBar()
        {
            // This call is required by the Windows.Forms Form Designer.
            InitializeComponent();

            this.hScrollBar.SmallChange = 10;
            this.hScrollBar.LargeChange = 100;

            this.scrollAmount             = this.hScrollBar.SmallChange;
            this.autoscrollTimer.Interval = 100;

            this.buttonMode = ExtendedScrollBarButtonMode.PlaySymbols;

            // create left play symbol
            this.leftPlayRegion = new Region();
            this.leftPlayRegion.MakeEmpty();
            this.leftPlayRegion.Union(new Rectangle(1, 4, 1, 1));
            this.leftPlayRegion.Union(new Rectangle(2, 3, 1, 3));
            this.leftPlayRegion.Union(new Rectangle(3, 2, 1, 5));
            this.leftPlayRegion.Union(new Rectangle(4, 1, 1, 7));
            this.leftPlayRegion.Union(new Rectangle(5, 0, 2, 9));

            // create right play symbol
            this.rightPlayRegion = this.leftPlayRegion.Clone();
            System.Drawing.Drawing2D.Matrix matrixTransform = new System.Drawing.Drawing2D.Matrix();
            matrixTransform.RotateAt(45, new Point(4, 4));
            matrixTransform.RotateAt(45, new Point(5, 5));
            matrixTransform.RotateAt(45, new Point(4, 4));
            matrixTransform.RotateAt(45, new Point(4, 4));
            this.rightPlayRegion.Transform(matrixTransform);

            // create stop symbol
            this.stopRegion = new Region();
            this.stopRegion.MakeEmpty();
            this.stopRegion.Union(new Rectangle(1, 0, 1, 1));
            this.stopRegion.Union(new Rectangle(7, 0, 1, 1));
            this.stopRegion.Union(new Rectangle(0, 1, 3, 1));
            this.stopRegion.Union(new Rectangle(6, 1, 3, 1));
            this.stopRegion.Union(new Rectangle(1, 2, 3, 1));
            this.stopRegion.Union(new Rectangle(5, 2, 3, 1));
            this.stopRegion.Union(new Rectangle(2, 3, 5, 1));
            this.stopRegion.Union(new Rectangle(3, 4, 3, 1));
            this.stopRegion.Union(new Rectangle(2, 5, 5, 1));
            this.stopRegion.Union(new Rectangle(5, 6, 3, 1));
            this.stopRegion.Union(new Rectangle(1, 6, 3, 1));
            this.stopRegion.Union(new Rectangle(6, 7, 3, 1));
            this.stopRegion.Union(new Rectangle(0, 7, 3, 1));
            this.stopRegion.Union(new Rectangle(7, 8, 1, 1));
            this.stopRegion.Union(new Rectangle(1, 8, 1, 1));

            this.CreateBitmaps();
        }
Beispiel #2
0
        private void DrawRotatedMeasureText(int gridSize, Graphics g, double degrees)
        {
            string text     = string.Format("{0} {1}", (double)(Math.Round(Length * ConversionRate, 1)), Unit);
            SizeF  textSize = g.MeasureString(text, measureFont);

            // Calculate the middle part of the segment
            Point start, end;

            start = Start.ToPoint(gridSize);
            end   = End.ToPoint(gridSize);
            PointF middlePoint = new PointF((start.X + end.X) / 2f, (start.Y + end.Y) / 2f);

            // we should find the middle of the segment and rotate based on that
            // at that point, we can easily translate it to not overlap the line
            using (System.Drawing.Drawing2D.Matrix transformMatrix = new System.Drawing.Drawing2D.Matrix())
            {
                // we rotate the text to match the slope of the line.
                transformMatrix.RotateAt((float)degrees, middlePoint);

                // translate by half the width
                transformMatrix.Translate(-textSize.Width / 2, 0);

                // if we want to put the text above the line, we need to translate the height as well.
                if ((Location & MeasurementLocation.Above) == MeasurementLocation.Above)
                {
                    transformMatrix.Translate(0, -textSize.Height);
                }

                g.Transform = transformMatrix;

                g.DrawString(text, measureFont, new SolidBrush(Color), middlePoint);

                g.ResetTransform();
            }
        }
Beispiel #3
0
        public override bool HitTest(System.Drawing.Point pt)
        {
            System.Drawing.Drawing2D.GraphicsPath gp       = new System.Drawing.Drawing2D.GraphicsPath();
            System.Drawing.Drawing2D.Matrix       myMatrix = new System.Drawing.Drawing2D.Matrix();
            System.Drawing.Pen myPen = new System.Drawing.Pen(this.m_lineColor, (float)this.m_lineWidth + 2);
            float X = (float)this.X;
            float Y = (float)this.Y;

            if (this.m_BondType == ChemInfo.BondType.Single)
            {
                gp.AddLine(X, Y, X + m_Size.Width, Y + m_Size.Height);
            }
            if (this.m_BondType == ChemInfo.BondType.Double)
            {
                gp.AddLine(X + m_OffsetX, Y + m_OffsetY, X + m_Size.Width + m_OffsetX, Y + m_Size.Height + m_OffsetY);
                gp.AddLine(X - m_OffsetX, Y - m_OffsetY, X + m_Size.Width - m_OffsetX, Y + m_Size.Height - m_OffsetY);
            }
            if (this.m_BondType == ChemInfo.BondType.Triple)
            {
                gp.AddLine(X + m_OffsetX, Y + m_OffsetY, X + m_Size.Width + m_OffsetX, Y + m_Size.Height + m_OffsetY);
                gp.AddLine(X, Y, X + m_Size.Width, Y + m_Size.Height);
                gp.AddLine(X - m_OffsetX, Y - m_OffsetY, X + m_Size.Width - m_OffsetX, Y + m_Size.Height - m_OffsetY);
            }
            myMatrix.RotateAt((float)this.m_Rotation, new System.Drawing.PointF(X, Y), System.Drawing.Drawing2D.MatrixOrder.Append);
            gp.Transform(myMatrix);
            return(gp.IsOutlineVisible(pt, myPen));
        }
Beispiel #4
0
        public override void Draw(System.Drawing.Graphics g)
        {
            System.Drawing.Drawing2D.GraphicsContainer gContainer = g.BeginContainer();
            System.Drawing.Drawing2D.Matrix            myMatrix   = g.Transform;
            this.DetermineOffset();
            float X = (float)this.m_parentAtom.X;
            float Y = (float)this.m_parentAtom.Y;

            if (m_Rotation != 0)
            {
                myMatrix.RotateAt((float)(m_Rotation), new System.Drawing.PointF(X, Y), System.Drawing.Drawing2D.MatrixOrder.Append);
                g.Transform = myMatrix;
            }
            System.Drawing.Pen myPen = new System.Drawing.Pen(m_lineColor, (float)m_lineWidth);
            if (this.m_BondType == ChemInfo.BondType.Single || this.m_BondType == ChemInfo.BondType.Aromatic)
            {
                g.DrawLine(myPen, X, Y, m_connectedAtom.X, m_connectedAtom.Y);
            }
            if (this.m_BondType == ChemInfo.BondType.Double)
            {
                g.DrawLine(myPen, X + m_OffsetX, Y + m_OffsetY, m_connectedAtom.X + m_OffsetX, m_connectedAtom.Y + m_OffsetY);
                g.DrawLine(myPen, X - m_OffsetX, Y - m_OffsetY, m_connectedAtom.X - m_OffsetX, m_connectedAtom.Y - m_OffsetY);
            }
            if (this.m_BondType == ChemInfo.BondType.Triple)
            {
                g.DrawLine(myPen, X + m_OffsetX, Y + m_OffsetY, m_connectedAtom.X + m_OffsetX, m_connectedAtom.Y + m_OffsetY);
                g.DrawLine(myPen, X, Y, m_connectedAtom.X, m_connectedAtom.Y);
                g.DrawLine(myPen, X - m_OffsetX, Y - m_OffsetY, m_connectedAtom.X - m_OffsetX, m_connectedAtom.Y - m_OffsetY);
            }
            g.EndContainer(gContainer);
        }
        /// <summary>
        /// Draws the background of the collapsed band
        /// </summary>
        /// <param name="g">The canvas to draw on</param>
        /// <param name="bounds">The bounds of the drawing</param>
        /// <param name="text">The text that should appear into the bar</param>
        /// <param name="font">The font to use when drawing the text</param>
        /// <param name="rightToLeft">if set to <c>true</c> [right to left].</param>
        /// <param name="state">The inputstate of the collapsed band</param>
        public override void DrawCollapsedBand(Graphics g, Rectangle bounds, string text, Font font,
                                               bool rightToLeft, InputState state)
        {
            // TODO Right to left

            using (SolidBrush b = new SolidBrush(colorTable.BandCollapsedBg))
            {
                if (state == InputState.Hovered)
                {
                    b.Color = colorTable.BandCollapsedFocused;
                }
                else if (state == InputState.Clicked)
                {
                    b.Color = colorTable.BandCollapsedClicked;
                }

                g.FillRectangle(b, bounds);
            }

            // inner border
            using (Pen p = new Pen(colorTable.DarkBorder))
            {
                g.DrawLine(p, new Point(bounds.Left, bounds.Top), new Point(bounds.Right,
                                                                            bounds.Top));
                p.Color = colorTable.HeaderBgInnerBorder;
                if (state == InputState.Normal)
                {
                    g.DrawLine(p, new Point(bounds.Left, bounds.Top + 1), new Point(bounds.Right,
                                                                                    bounds.Top + 1));
                    g.DrawLine(p, new Point(bounds.Left, bounds.Top + 1), new Point(bounds.Left,
                                                                                    bounds.Bottom));
                }
            }

            using (Brush brush = new SolidBrush(colorTable.Text))
            {
                if (rightToLeft)
                {
                    Point ptCenter = new Point(bounds.X + bounds.Width / 2 + 7, bounds.Y +
                                               bounds.Height / 2);
                    System.Drawing.Drawing2D.Matrix transform = g.Transform;
                    transform.RotateAt(90, ptCenter);
                    g.Transform = transform;
                    using (StringFormat format = new StringFormat())
                    {
                        format.FormatFlags |= StringFormatFlags.DirectionRightToLeft;
                        g.DrawString(text, font, brush, ptCenter, format);
                    }
                }
                else
                {
                    Point ptCenter = new Point(bounds.X + bounds.Width / 2 - 7, bounds.Y +
                                               bounds.Height / 2);
                    System.Drawing.Drawing2D.Matrix transform = g.Transform;
                    transform.RotateAt(270, ptCenter);
                    g.Transform = transform;
                    g.DrawString(text, font, brush, ptCenter);
                }
            }
        }
Beispiel #6
0
        public override void Draw(Tekening tek, Graphics gr, bool widepen, bool fill)
        {
            PointF loc;
            SizeF  afm;
            float  hoek;

            CalcEllipsWaarden(f1.Coordinaat, f2.Coordinaat, p.Coordinaat, out loc, out afm, out hoek);

            #region Assenstelsel draaien
            System.Drawing.Drawing2D.Matrix oudematrix = gr.Transform;
            System.Drawing.Drawing2D.Matrix transform  = new System.Drawing.Drawing2D.Matrix();
            transform.RotateAt((float)(hoek * 180 / Math.PI), tek.Offset);
            gr.Transform = transform;
            #endregion

            PointF loc2 = tek.co_pt(loc, gr.DpiX, gr.DpiY);

            if (fill)
            {
                gr.DrawFillEllipse(GetPen(false), GetBrush(gr, tek.Schaal, tek.Offset, false), loc2.X, loc2.Y, afm.Width * tek.Schaal / 2.54f * gr.DpiX, afm.Height * tek.Schaal / 2.54f * gr.DpiY);
            }
            else
            {
                gr.DrawEllipse(GetPen(false), loc2.X, loc2.Y, afm.Width * tek.Schaal / 2.54f * gr.DpiX, afm.Height * tek.Schaal / 2.54f * gr.DpiY);
            }

            #region Assenstelsel herstellen
            gr.Transform = oudematrix;
            #endregion
        }
        void Draw(System.Drawing.Graphics g, System.Drawing.Drawing2D.AdjustableArrowCap customStartCap, System.Drawing.Drawing2D.AdjustableArrowCap customEndCap)
        {
            System.Drawing.Drawing2D.GraphicsContainer gContainer = g.BeginContainer();
            System.Drawing.Drawing2D.Matrix            myMatrix   = g.Transform;

            float X = (float)this.X;
            float Y = (float)this.Y;

            if (m_Rotation != 0)
            {
                myMatrix.RotateAt((float)m_Rotation, new System.Drawing.PointF(X, Y), System.Drawing.Drawing2D.MatrixOrder.Append);
                g.Transform = myMatrix;
            }
            System.Drawing.Pen myPen = new System.Drawing.Pen(m_lineColor, (float)m_lineWidth);

            // put startcaps and endcaps on lines
            if (customStartCap != null)
            {
                myPen.CustomStartCap = customStartCap;
            }
            if (customEndCap != null)
            {
                myPen.CustomEndCap = customEndCap;
            }

            g.DrawLine(myPen, X, Y, X + m_Size.Width, Y + m_Size.Height);
            g.EndContainer(gContainer);
        }
Beispiel #8
0
        public override void ApplyTransformation(System.Drawing.Drawing2D.Matrix transform)
        {
            if (fromAngle == toAngle)
            {
                curAngle = toAngle;
            }
            else
            {
                if (fromAngle < toAngle)
                {
                    curAngle += CHANGE_VALUE;
                    if (curAngle >= toAngle)
                    {
                        curAngle = toAngle;
                    }
                }
                else
                {
                    curAngle -= CHANGE_VALUE;
                    if (curAngle <= toAngle)
                    {
                        curAngle = toAngle;
                    }
                }
            }

            transform.Reset();
            transform.RotateAt(curAngle, pivotPoint);
        }
Beispiel #9
0
 public HoverForm()
 {
     Opacity = 0.6;
     size    = 1;
     InitializeComponent();
     this.fieldButton1.BackColor   = Color.WhiteSmoke;
     this.fieldButton1.Click      += fieldButton1_Click;
     this.fieldButton1.drawCenterX = 50;
     this.fieldButton1.drawCenterY = 43;
     for (int i = 0; i < Game.MAXBUILDINGSIZE; i++)
     {
         FieldButton f = new FieldButton();
         f.BackColor  = Color.WhiteSmoke;
         f.Parent     = this;
         f.Name       = "extraButton_" + i;
         f.Size       = new Size(fieldButton1.Width, fieldButton1.Height);
         f.Click     += fieldButton1_Click;
         f.MouseMove += HoverForm_MouseMove;
         this.extraButtons.Add(f);
         this.Controls.Add(f);
     }
     this.fieldButton1.MouseMove += HoverForm_MouseMove;
     rotMatrix = new System.Drawing.Drawing2D.Matrix();
     rotMatrix.RotateAt(180, new PointF(fieldButton1.drawCenterX, fieldButton1.drawCenterY));
 }
Beispiel #10
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        internal static SharpMap.Map InitializeMap(float angle, string[] filenames)
        {
            var map = new SharpMap.Map();

            try
            {
                foreach (var filename in filenames)
                {
                    var connectionString = string.Format("Data Source={0}", filename);
                    foreach (var provider in SharpMap.Data.Providers.SpatiaLite.GetSpatialTables(connectionString))
                    {
                        map.Layers.Add(
                            new SharpMap.Layers.VectorLayer(
                                string.Format("{0} - {1}", provider.Table, provider.GeometryColumn), provider)
                        {
                            Style = LayerTools.GetRandomVectorStyle()
                        });
                    }
                }
                if (map.Layers.Count > 0)
                {
                    map.ZoomToExtents();

                    System.Drawing.Drawing2D.Matrix mat = new System.Drawing.Drawing2D.Matrix();
                    mat.RotateAt(angle, map.WorldToImage(map.Center));
                    map.MapTransform = mat;
                    return(map);
                }
            }
            catch (System.Exception ex)
            {
                System.Diagnostics.Trace.WriteLine(ex.Message);
            }
            return(null);
        }
        public override void Draw(System.Drawing.Graphics g)
        {
            System.Drawing.StringFormat format = new System.Drawing.StringFormat();
            format.Alignment     = this.m_HorizontalAlignment;
            format.LineAlignment = this.m_VerticalAlignment;
            System.Drawing.Drawing2D.GraphicsContainer gContainer = g.BeginContainer();
            System.Drawing.Drawing2D.Matrix            myMatrix   = g.Transform;
            float X = (float)this.X;
            float Y = (float)this.Y;

            if (m_Rotation != 0)
            {
                myMatrix.RotateAt((float)(m_Rotation), new System.Drawing.PointF(X, Y), System.Drawing.Drawing2D.MatrixOrder.Append);
                g.Transform = myMatrix;
            }
            if (m_AutoSize)
            {
                System.Drawing.SizeF mySize = g.MeasureString(m_Text, m_Font);
                m_Size.Width  = (int)mySize.Width;
                m_Size.Height = (int)mySize.Height;
                g.DrawString(m_Text, m_Font, new System.Drawing.SolidBrush(m_Color), X, Y, format);
            }
            else
            {
                System.Drawing.RectangleF rect = new System.Drawing.RectangleF(X, Y, (float)m_Size.Width, (float)m_Size.Height);
                g.DrawString(m_Text, m_Font, new System.Drawing.SolidBrush(m_Color), rect, format);
            }
            g.EndContainer(gContainer);
        }
Beispiel #12
0
        public override void Draw(Tekening tek, Graphics gr, PointF loc_co, Vorm[] ref_vormen)
        {
            if ((f1 == null) | (f2 == null))
            {
                return;
            }
            PointF loc;
            SizeF  afm;
            float  hoek;

            CalcEllipsWaarden(f1.Coordinaat, f2.Coordinaat, loc_co, out loc, out afm, out hoek);

            #region Assenstelsel draaien
            System.Drawing.Drawing2D.Matrix oudematrix = gr.Transform;
            System.Drawing.Drawing2D.Matrix transform  = new System.Drawing.Drawing2D.Matrix();
            transform.RotateAt((float)(hoek * 180 / Math.PI), tek.Offset);
            gr.Transform = transform;
            #endregion

            PointF loc2 = tek.co_pt(loc, gr.DpiX, gr.DpiY);

            gr.DrawFillEllipse(GetPen(false), GetBrush(gr, tek.Schaal, new PointF(), false), loc2.X, loc2.Y, afm.Width * tek.Schaal / 2.54f * gr.DpiX, afm.Height * tek.Schaal / 2.54f * gr.DpiY);

            #region Assenstelsel herstellen
            gr.Transform = oudematrix;
            #endregion
        }
Beispiel #13
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        public List <Point> ToPoints(
            float angle,
            Rectangle rect)
        {
            // Graphics g = Graphics.FromImage(this.Image);
            Graphics g = Graphics.FromHwnd(this.Handle);

            List <Point> source_points = new List <Point>();

            source_points.Add(new Point(rect.X, rect.Y));
            source_points.Add(new Point(rect.X + rect.Width, rect.Y));
            source_points.Add(new Point(rect.X + rect.Width, rect.Y + rect.Height));
            source_points.Add(new Point(rect.X, rect.Y + rect.Height));
            Point[] pts = source_points.ToArray();

            Rectangle display_rect = GetPictureBoxZoomSize();
            float     x_ratio      = (float)display_rect.Width / (float)this.Image.Width;
            float     y_ratio      = (float)display_rect.Height / (float)this.Image.Height;

            System.Drawing.Drawing2D.Matrix rotateMatrix =
                new System.Drawing.Drawing2D.Matrix();
            // Set the rotation angle and starting point for the text.
            rotateMatrix.RotateAt(angle, new PointF(this.Image.Width / 2, this.Image.Height / 2));
            //rotateMatrix.RotateAt(angle, new PointF(0, 0));

            g.MultiplyTransform(rotateMatrix);

            // g.ScaleTransform(x_ratio, y_ratio);
            // g.ScaleTransform((float)1.1, (float)1.1);
            // g.RotateTransform(angle);
            g.TransformPoints(System.Drawing.Drawing2D.CoordinateSpace.World, System.Drawing.Drawing2D.CoordinateSpace.Device, pts);
            return(pts.ToList());
        }
Beispiel #14
0
        private static SharpMap.Map InitializeVRT(ref int index, float angle)
        {
            SharpMap.Map map = new SharpMap.Map();
            int          ind = index - 6;

            if (ind >= Vrts.Length)
            {
                ind = 0;
            }

            if (!System.IO.File.Exists(RelativePath + Vrts[ind]))
            {
                throw new System.Exception("Make sure the data is in the relative directory: " + RelativePath);
            }

            SharpMap.Layers.GdalRasterLayer layer = new SharpMap.Layers.GdalRasterLayer("VirtualRasterTable", RelativePath + Vrts[ind]);

            var ext = System.IO.Path.GetExtension(layer.Filename);

            map.Layers.Add(layer);
            _gdalSampleDataset = string.Format("'{0}'", ext != null ? ext.ToUpper() : string.Empty);
            map.ZoomToExtents();

            System.Drawing.Drawing2D.Matrix mat = new System.Drawing.Drawing2D.Matrix();
            mat.RotateAt(angle, map.WorldToImage(map.Center));
            map.MapTransform = mat;
            //index++;
            return(map);
        }
        public override void ApplyTransformation(System.Drawing.Drawing2D.Matrix transform)
        {
            if (angle == 0)
            {
                transform.Reset();
                return;
            }

            if (right2Left)
            {
                curAngle -= CHANGE_VALUE;
                if (curAngle <= -angle)
                {
                    curAngle   = -angle;
                    right2Left = false;
                }
            }
            else
            {
                curAngle += CHANGE_VALUE;
                if (curAngle >= angle)
                {
                    curAngle   = angle;
                    right2Left = true;
                    repeatCount++;
                }
            }

            transform.Reset();
            transform.RotateAt(curAngle, curAngle >= 0 ? rightPivot : leftPivot);
        }
Beispiel #16
0
        public override void ApplyTransformation(System.Drawing.Drawing2D.Matrix transform)
        {
            if (toX == fromX)
            {
                curX = toX;
            }
            else if (fromX < toX)
            {
                curX += CHANGE_VALUE;
                if (curX >= toX)
                {
                    curX = toX;
                }
            }
            else
            {
                curX -= CHANGE_VALUE;
                if (curX <= toX)
                {
                    curX = toX;
                }
            }

            transform.Reset();

            transform.Translate(curX - fromX, 0);
            transform.RotateAt(-GetRotateAngle(curX), pivot);
        }
Beispiel #17
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        public List <Point> ToPoints(
            float angle,
            Rectangle rect)
        {
            // Create a GraphicsPath.
            System.Drawing.Drawing2D.GraphicsPath path =
                new System.Drawing.Drawing2D.GraphicsPath();

            path.AddRectangle(rect);

            // Declare a matrix that will be used to rotate the text.
            System.Drawing.Drawing2D.Matrix rotateMatrix =
                new System.Drawing.Drawing2D.Matrix();

            // Set the rotation angle and starting point for the text.
            rotateMatrix.RotateAt(180.0F, new PointF(10.0F, 100.0F));

            // Transform the text with the matrix.
            path.Transform(rotateMatrix);

            List <Point> results = new List <Point>();

            foreach (PointF p in path.PathPoints)
            {
                results.Add(new Point((int)p.X, (int)p.Y));
            }

            path.Dispose();

            return(results);
        }
Beispiel #18
0
        private Map GetMap(int srid, Coordinate center, float mapRotationDeg)
        {
            var map = new Map(new Size(800, 640));

            map.SRID      = srid;
            map.Center    = center;
            map.BackColor = Color.BlanchedAlmond;

            if (!mapRotationDeg.Equals(0f))
            {
                var matrix = new System.Drawing.Drawing2D.Matrix();
                matrix.RotateAt(mapRotationDeg, new PointF(map.Size.Width * 0.5f, map.Size.Height * 0.5f));
                map.MapTransform = matrix;
            }

            map.Decorations.Add(new SharpMap.Rendering.Decoration.Graticule.Graticule
            {
                GcsGraticuleStyle = { PrimaryLineStyle = GraticuleLineStyle.SolidTick }
            });

            map.Decorations.Add(new EyeOfSight());

            map.Disclaimer = "FEATURE LAYER DOTS SHOULD COINCIDE WITH GRATICULE TICKS";

            return(map);
        }
Beispiel #19
0
        public static Image RotateImage(Image inputImg, double degreeAngle)
        {
            //Corners of the image
            PointF[] rotationPoints = { new PointF(0,                            0),
                                        new PointF(inputImg.Width,               0),
                                        new PointF(0,              inputImg.Height),
                                        new PointF(inputImg.Width, inputImg.Height) };

            //Rotate the corners
            PointMath.RotatePoints(rotationPoints, new PointF(inputImg.Width / 2.0f, inputImg.Height / 2.0f), degreeAngle);

            //Get the new bounds given from the rotation of the corners
            //(avoid clipping of the image)
            Rectangle bounds = PointMath.GetBounds(rotationPoints);

            //An empy bitmap to draw the rotated image
            Bitmap rotatedBitmap = new Bitmap(bounds.Width, bounds.Height);

            using (Graphics g = Graphics.FromImage(rotatedBitmap))
            {
                g.SmoothingMode     = System.Drawing.Drawing2D.SmoothingMode.HighQuality;
                g.InterpolationMode = System.Drawing.Drawing2D.InterpolationMode.HighQualityBicubic;

                //Transformation matrix
                System.Drawing.Drawing2D.Matrix m = new System.Drawing.Drawing2D.Matrix();
                m.RotateAt((float)degreeAngle, new PointF(inputImg.Width / 2.0f, inputImg.Height / 2.0f));
                m.Translate(-bounds.Left, -bounds.Top, System.Drawing.Drawing2D.MatrixOrder.Append); //shift to compensate for the rotation

                g.Transform = m;
                g.DrawImage(inputImg, 0, 0);
            }
            return((Image)rotatedBitmap);
        }
Beispiel #20
0
        public static SharpMap.Map InitializeMap(float angle)
        {
            using (var ofn = new System.Windows.Forms.OpenFileDialog())
            {
                ofn.Filter      = "All files|*.*";
                ofn.FilterIndex = 0;

                if (ofn.ShowDialog() == System.Windows.Forms.DialogResult.OK)
                {
                    var m = new SharpMap.Map();
                    var l = new SharpMap.Layers.GdiImageLayer(ofn.FileName);
                    m.Layers.Add(l);

                    m.ZoomToExtents();

                    var mat = new System.Drawing.Drawing2D.Matrix();
                    mat.RotateAt(angle, m.WorldToImage(m.Center));
                    m.MapTransform          = mat;
                    m.MaximumExtents        = m.GetExtents();
                    m.EnforceMaximumExtents = true;
                    return(m);
                }
            }
            return(null);
        }
Beispiel #21
0
        private static void CreateRotatedFillInBackground(Shape shape, Bitmap slideImage, double magnifyRatio = 1.0)
        {
            PPShape rotatedShape = new PPShape(shape, false);
            PointF  topLeftPoint = new PointF(rotatedShape.ActualTopLeft.X * GraphicsUtil.PictureExportingRatio,
                                              rotatedShape.ActualTopLeft.Y * GraphicsUtil.PictureExportingRatio);

            Bitmap rotatedImage = new Bitmap(slideImage.Width, slideImage.Height);

            using (Graphics g = Graphics.FromImage(rotatedImage))
            {
                g.InterpolationMode = System.Drawing.Drawing2D.InterpolationMode.HighQualityBicubic;

                using (System.Drawing.Drawing2D.Matrix mat = new System.Drawing.Drawing2D.Matrix())
                {
                    mat.Translate(-topLeftPoint.X, -topLeftPoint.Y);
                    mat.RotateAt(-shape.Rotation, topLeftPoint);

                    g.Transform = mat;
                    g.DrawImage(slideImage, new Rectangle(0, 0, slideImage.Width, slideImage.Height));
                }
            }

            Bitmap magnifiedImage = KiCut(rotatedImage, 0, 0, shape.Width * GraphicsUtil.PictureExportingRatio,
                                          shape.Height * GraphicsUtil.PictureExportingRatio, magnifyRatio);

            magnifiedImage.Save(FillInBackgroundPicture, ImageFormat.Png);
        }
Beispiel #22
0
 /// <summary> Rotates the current transformation around the given
 /// pivot point by the given angle.
 ///
 /// </summary>
 /// <param name="angle">rotation in degrees.
 /// </param>
 /// <param name="pivotX">x coordinate of the pivot point.
 /// </param>
 /// <param name="pivotY">y coordinate of the pivot point.
 /// </param>
 public virtual void Rotate(double angle, double pivotX, double pivotY)
 {
     System.Drawing.Drawing2D.Matrix temp_Matrix;
     temp_Matrix = new System.Drawing.Drawing2D.Matrix();
     temp_Matrix.RotateAt((float)(SupportClass.DegreesToRadians(angle) * (180 / System.Math.PI)), new System.Drawing.PointF((float)pivotX, (float)pivotY));
     transform(temp_Matrix);
 }
        // Graphics methods
        //chuck's new code 2/20/04
        //this method indicates whether point is along outline of graphic
        //and if so, what type of cursor should show
        public virtual void BoundaryTest(System.Drawing.Point pt, SizeDirection dir)
        {
            System.Drawing.Drawing2D.GraphicsPath gp       = new System.Drawing.Drawing2D.GraphicsPath();
            System.Drawing.Drawing2D.Matrix       myMatrix = new System.Drawing.Drawing2D.Matrix();
            System.Drawing.Pen pen = new System.Drawing.Pen(System.Drawing.Color.Black, 3);

            gp.AddRectangle(new System.Drawing.Rectangle(this.m_Position.X - 3, this.m_Position.Y - 3, this.m_Size.Width + 6, this.m_Size.Height + 6));
            if (this.m_Rotation != 0)
            {
                myMatrix.RotateAt((float)this.m_Rotation, new System.Drawing.PointF((float)this.X, (float)this.Y), System.Drawing.Drawing2D.MatrixOrder.Append);
            }

            gp.Transform(myMatrix);
            dir = SizeDirection.NA;
            if (gp.IsOutlineVisible(pt, pen))
            {
                //user has placed the mouse along the outline of the selected
                //object - change the mouse to allow for resizing
                System.Drawing.RectangleF rect = gp.GetBounds();
                if (Math.Abs((int)rect.Left - pt.X) <= 2)
                {
                    if (Math.Abs((int)rect.Top - pt.Y) <= 2)
                    {
                        dir = SizeDirection.Northwest;
                    }
                    else if (Math.Abs((int)rect.Bottom - pt.Y) <= 2)
                    {
                        dir = SizeDirection.Southwest;
                    }
                    else
                    {
                        dir = SizeDirection.West;
                    }
                }
                else if (Math.Abs((int)rect.Right - pt.X) <= 2)
                {
                    if (Math.Abs((int)rect.Top - pt.Y) <= 2)
                    {
                        dir = SizeDirection.Northeast;
                    }
                    else if (Math.Abs((int)rect.Bottom - pt.Y) <= 2)
                    {
                        dir = SizeDirection.Southeast;
                    }
                    else
                    {
                        dir = SizeDirection.East;
                    }
                }
                else if (Math.Abs((int)rect.Top - pt.Y) <= 2)
                {
                    dir = SizeDirection.North;
                }
                else
                {
                    dir = SizeDirection.South;
                }
            }
        }
 public void rotatePoint(PointF centerpoint, float angle, ref PointF dstpoint)
 {
     System.Drawing.Drawing2D.Matrix mat = new System.Drawing.Drawing2D.Matrix();
     mat.RotateAt(angle, centerpoint);
     PointF[] arraypoints = new PointF[1];
     arraypoints[0] = dstpoint;
     mat.TransformPoints(arraypoints);
     dstpoint = arraypoints[0];
 }
 //根据验证字符串生成最终图象
 public void CreateImage(string str_ValidateCode)
 {
     //int int_ImageWidth = str_ValidateCode.Length * 13;
     //int width = int_ImageWidth;
     int int_ImageWidth = this.Width;
     int width = int_ImageWidth;
     int height = this.Height;
     string filePath = Server.MapPath(imgDir);
     Bitmap bgImg = (Bitmap)Bitmap.FromFile(GetRandomFile(filePath));
     Random newRandom = new Random();
     // 图高20px
     Bitmap theBitmap = new Bitmap(width, height);
     Graphics theGraphics = Graphics.FromImage(theBitmap);
     theGraphics.InterpolationMode = System.Drawing.Drawing2D.InterpolationMode.HighQualityBicubic;
     theGraphics.CompositingQuality = System.Drawing.Drawing2D.CompositingQuality.HighQuality;
     theGraphics.SmoothingMode = System.Drawing.Drawing2D.SmoothingMode.HighQuality;
     theGraphics.TextRenderingHint = System.Drawing.Text.TextRenderingHint.AntiAlias;
     // 白色背景
     //theGraphics.Clear(Color.White);
     theGraphics.DrawImage(bgImg, new Rectangle(0, 0, width, height), new Rectangle(0, 0, bgImg.Width, bgImg.Height), GraphicsUnit.Pixel);
     // 灰色边框
     //theGraphics.DrawRectangle(new Pen(Color.LightGray, 1), 0, 0, int_ImageWidth - 1, height - 1);
     //13pt的字体
     float fontSize = this.Height * 1.0f / 1.38f;
     float fontSpace = fontSize / 7f;
     Font theFont = new Font("Arial", fontSize);
     System.Drawing.Drawing2D.GraphicsPath gp = null;
     System.Drawing.Drawing2D.Matrix matrix;
     for (int int_index = 0; int_index < str_ValidateCode.Length; int_index++)
     {
         string str_char = str_ValidateCode.Substring(int_index, 1);
         Brush newBrush = new SolidBrush(GetRandomColor());
         Point thePos = new Point((int)(int_index * (fontSize + fontSpace) + newRandom.Next(3)), 1 + newRandom.Next(3));
         gp = new System.Drawing.Drawing2D.GraphicsPath();
         gp.AddString(str_char, theFont.FontFamily, 0, fontSize, thePos, new StringFormat());
         matrix = new System.Drawing.Drawing2D.Matrix();
         int angle = GetRandomAngle();
         PointF centerPoint = new PointF(thePos.X + fontSize / 2, thePos.Y + fontSize / 2);
         matrix.RotateAt(angle, centerPoint);
         theGraphics.Transform = matrix;
         theGraphics.DrawPath(new Pen(Color.White, 2f), gp);
         //theGraphics.FillPath(new SolidBrush(Color.Black), gp);
         theGraphics.FillPath(new SolidBrush(GetRandomColor()), gp);
         theGraphics.ResetTransform();
     }
     if (gp != null) gp.Dispose();
     // 将生成的图片发回客户端
     MemoryStream ms = new MemoryStream();
     theBitmap.Save(ms, ImageFormat.Png);
     Response.ClearContent(); //需要输出图象信息 要修改HTTP头 
     Response.ContentType = "image/gif";
     Response.BinaryWrite(ms.ToArray());
     theGraphics.Dispose();
     theBitmap.Dispose();
     Response.End();
 }
Beispiel #26
0
        // ******************** ROTATION OF RECTANGLE SECTION ********************

        private void num_angle_ValueChanged(object sender, EventArgs e) // If the user changes the angle either by clicking up down, typing new angle, or using scroll wheel, the rectangle is redrawn with that angle
        {
            var width  = Math.Abs(global.input[2] - global.input[0]);   // Defining width and height the same way as earlier
            var height = Math.Abs(global.input[3] - global.input[1]);

            rec           = new Rectangle(global.input[0], global.input[1], width, height);
            img_rectangle = image_Original.CreateGraphics();

            string angle = num_angle.Text; // Angle by which rectangle should be rotated is stored in textbox and accessed later
            double theta = Convert.ToDouble(angle);

            theta = (double)(theta * (Math.PI / 180));                                                        //Converting the angle to radians so it can be used by sine/cosine functions later on

            int centerx = global.input[0] + ((global.input[2] - global.input[0]) / 2);                        //The center of the rectangle in the x-direction
            int centery = global.input[1] + ((global.input[3] - global.input[1]) / 2);                        //The center of the rectangle in the y-direction

            System.Drawing.Drawing2D.Matrix rotateMatrix = new System.Drawing.Drawing2D.Matrix();             // Creating the rotation matrix
            rotateMatrix.RotateAt(int.Parse(angle), new PointF(centerx, centery));                            //Telling matrix the angle by which it should be rotated and that it should be rotated about the center point of the rectangle
            img_rectangle.Transform = rotateMatrix;                                                           // // Transforming the rectangle -- giving it the same angle as the matrix

            img_rectangle.Clear(Color.Black);                                                                 //Cleared so all past instances of the rectangle are no longer on screen
            Graphics img_rectangle2 = image_Original.CreateGraphics();                                        // Making another variable so the image is not rotated with the rectangle

            var       image = Image.FromFile(lbl_fileName.Text);                                              //Finding location of uploaded image again from text
            Rectangle PictureboxRectangle = new Rectangle(0, 0, image_Original.Width, image_Original.Height); //Makes sure that the image will take up the whole picturebox space

            img_rectangle2.DrawImage(image, PictureboxRectangle);                                             //Drawing the uploaded image again

            Pen redPen = new Pen(Color.Red, 2);

            img_rectangle.DrawRectangle(redPen, rec);                                                     //Drawing rectangle on the picturebox
            image.Dispose();                                                                              //Dispose image each time so it doesn't use too much memory

            int x1 = (int)(centerx - ((width / 2 * Math.Cos(theta)) - ((height / 2) * Math.Sin(theta)))); //Top left x value after rotation
            int y1 = (int)(centery - ((width / 2 * Math.Sin(theta)) + ((height / 2) * Math.Cos(theta)))); //Top left y value after rotation

            int x2 = (int)(centerx + ((width / 2 * Math.Cos(theta)) + ((height / 2) * Math.Sin(theta)))); //Top right x value after rotation
            int y2 = (int)(centery + ((width / 2 * Math.Sin(theta)) - ((height / 2) * Math.Cos(theta)))); //Top right y value after rotation

            int x3 = (int)(centerx + ((width / 2 * Math.Cos(theta)) - ((height / 2) * Math.Sin(theta)))); //Bottom right x value after rotation
            int y3 = (int)(centery + ((width / 2 * Math.Sin(theta)) + ((height / 2) * Math.Cos(theta)))); //Bottom right y value after rotation

            int x4 = (int)(centerx - ((width / 2 * Math.Cos(theta)) + ((height / 2) * Math.Sin(theta)))); //Bottom left x value after rotation
            int y4 = (int)(centery - ((width / 2 * Math.Sin(theta)) - ((height / 2) * Math.Cos(theta)))); //Bottom left y value after rotation

            p1xtext.Text = Convert.ToString(x1);
            p1ytext.Text = Convert.ToString(y1);
            p2xtext.Text = Convert.ToString(x2);
            p2ytext.Text = Convert.ToString(y2);
            p3xtext.Text = Convert.ToString(x3);
            p3ytext.Text = Convert.ToString(y3);
            p4xtext.Text = Convert.ToString(x4);
            p4ytext.Text = Convert.ToString(y4);
        }
Beispiel #27
0
        /// <summary>
        /// マウスホイールイベント(画像の拡大縮小)
        /// </summary>
        /// <param name="sender"></param>
        /// <param name="e"></param>
        private void picImage_MouseWheel(object sender, MouseEventArgs e)
        {
            bool shiftKeyFlg = false;

            if ((Control.ModifierKeys & Keys.Shift) == Keys.Shift)
            {
                shiftKeyFlg = true;
            }


            if (e.Delta > 0)
            {
                if (shiftKeyFlg)
                {
                    // ポインタの位置周りに回転
                    _matAffine.RotateAt(5f, e.Location, System.Drawing.Drawing2D.MatrixOrder.Append);
                }
                else
                {
                    // 拡大
                    // ポインタの位置周りに拡大
                    _matAffine.ScaleAt(1.5f, e.Location);
                }
            }
            else
            {
                if (shiftKeyFlg)
                {
                    // ポインタの位置周りに回転
                    _matAffine.RotateAt(-5f, e.Location, System.Drawing.Drawing2D.MatrixOrder.Append);
                }
                else
                {
                    // 縮小
                    // ポインタの位置周りに縮小
                    _matAffine.ScaleAt(1.0f / 1.5f, e.Location);
                }
            }
            // 画像の描画
            RedrawImage();
        }
        private void ddlRotation_SelectedIndexChanged(object sender, EventArgs e)
        {
            var deg    = (ddlRotation.SelectedItem as dynamic).Value;
            var matrix = new System.Drawing.Drawing2D.Matrix();

            if (deg != 0f)
            {
                matrix.RotateAt((float)deg, new PointF(this.mb.Width / 2f, this.mb.Height / 2f));
            }
            this.mb.Map.MapTransform = matrix;
            this.mb.Refresh();
        }
Beispiel #29
0
        public static SharpMap.Map InitializeMap(int angle, string[] filenames)
        {
            var map = new SharpMap.Map();
            for (int i = 0; i < filenames.Length; i++)
                map.Layers.Add(new SharpMap.Layers.GdalRasterLayer(System.IO.Path.GetFileName(filenames[i]), filenames[i]));

            System.Drawing.Drawing2D.Matrix mat = new System.Drawing.Drawing2D.Matrix();
            mat.RotateAt(angle, map.WorldToImage(map.Center));
            map.MapTransform = mat;
            map.ZoomToExtents();
            return map;
        }
Beispiel #30
0
        private static Matrix RotateAt(Matrix matrix, float theta, PointFx pointFx)
        {
            Matrix tempMatrix = Matrix.Identity;

            System.Drawing.Drawing2D.Matrix drawMatrix = new System.Drawing.Drawing2D.Matrix(
                matrix.M11, matrix.M12,
                matrix.M21, matrix.M22,
                matrix.M31, matrix.M32);
            drawMatrix.RotateAt(theta, new System.Drawing.PointF(pointFx.X, pointFx.Y));
            tempMatrix = SetElements(drawMatrix);
            return(tempMatrix);
        }
Beispiel #31
0
        private void DrawEndLine(int gridSize, Graphics g, Entry location, double degrees, Pen pen)
        {
            using (System.Drawing.Drawing2D.Matrix transformMatrix = new System.Drawing.Drawing2D.Matrix())
            {
                transformMatrix.RotateAt((float)degrees, location.ToPoint(gridSize));

                g.Transform = transformMatrix;
                g.DrawLine(pen, location.ToPoint(gridSize).AddToY(-(gridSize / 2)), location.ToPoint(gridSize).AddToY((gridSize / 2)));

                g.ResetTransform();
            }
        }
Beispiel #32
0
        /// <summary>
        /// Set the Rovio's position using linear interpolation.
        /// </summary>
        private void SetNewRovioPosition()
        {
            Vector2 oldP = new Vector2(picBoxRovio.Location.X, picBoxRovio.Location.Y);
            Vector2 newP = new Vector2(0, -1);

            // Find the angle of the Rovio on the perimeter of the arena.
            newP = Vector2.Transform(-Vector2.UnitY, Matrix.CreateRotationZ(MathHelper.ToRadians((float)robot.cumulativeAngle)));
            newP /= MathHelper.Max(Math.Abs(newP.X), Math.Abs(newP.Y));
            newP += Vector2.One;
            newP *= new Vector2(260, 300) * 0.5f;

            // Translate into the arena from the perimeter.
            using (matrix = new System.Drawing.Drawing2D.Matrix())
            {
                matrix.Translate((int)newP.X, (int)newP.Y);
                matrix.RotateAt((float)robot.cumulativeAngle, new DPoint(0, 0));
                matrix.Translate(0f, (float)(robot.GetWallDist() * 100));
                DPoint[] newPos = { new DPoint(0, 0) };
                matrix.TransformPoints(newPos);

                if (newPos[0].X < -400 || newPos[0].X > 600)
                    newPos[0] = new DPoint(-100, -100);

                // Compensate for the alcoves.
                if (newPos[0].X < 30 && (newPos[0].Y < 100 || newPos[0].Y > 200))
                    newPos[0].X += 30;
                else if (newP.X > 230 && (newPos[0].Y < 100 || newPos[0].Y > 200))
                    newPos[0].X -= 30;
                newP = Vector2.Lerp(oldP, new Vector2(newPos[0].X, newPos[0].Y), 0.1f);

                picBoxRovio.Location = new DPoint((int)newP.X, (int)newP.Y);
            }
        }
Beispiel #33
0
        public List<Point> ToPoints(
    float angle,
    Rectangle rect)
        {
            // Create a GraphicsPath.
            System.Drawing.Drawing2D.GraphicsPath path =
                new System.Drawing.Drawing2D.GraphicsPath();

            path.AddRectangle(rect);

            // Declare a matrix that will be used to rotate the text.
            System.Drawing.Drawing2D.Matrix rotateMatrix =
                new System.Drawing.Drawing2D.Matrix();

            // Set the rotation angle and starting point for the text.
            rotateMatrix.RotateAt(180.0F, new PointF(10.0F, 100.0F));

            // Transform the text with the matrix.
            path.Transform(rotateMatrix);

            List<Point> results = new List<Point>();
            foreach(PointF p in path.PathPoints)
            {
                results.Add(new Point((int)p.X, (int)p.Y));
            }

            path.Dispose();

            return results;
        }
Beispiel #34
0
        public List<Point> ToPoints(
            float angle,
            Rectangle rect)
        {
            // Graphics g = Graphics.FromImage(this.Image);
            Graphics g = Graphics.FromHwnd(this.Handle);

            List<Point> source_points = new List<Point>();
            source_points.Add(new Point(rect.X, rect.Y));
            source_points.Add(new Point(rect.X + rect.Width, rect.Y));
            source_points.Add(new Point(rect.X +rect.Width, rect.Y + rect.Height));
            source_points.Add(new Point(rect.X, rect.Y + rect.Height));
            Point[] pts = source_points.ToArray();

            Rectangle display_rect = GetPictureBoxZoomSize();
            float x_ratio = (float)display_rect.Width / (float)this.Image.Width;
            float y_ratio = (float)display_rect.Height / (float)this.Image.Height;

            System.Drawing.Drawing2D.Matrix rotateMatrix =
    new System.Drawing.Drawing2D.Matrix();
            // Set the rotation angle and starting point for the text.
            rotateMatrix.RotateAt(angle, new PointF(this.Image.Width / 2, this.Image.Height / 2));
            //rotateMatrix.RotateAt(angle, new PointF(0, 0));

            g.MultiplyTransform(rotateMatrix);

            // g.ScaleTransform(x_ratio, y_ratio);
            // g.ScaleTransform((float)1.1, (float)1.1);
            // g.RotateTransform(angle);
            g.TransformPoints(System.Drawing.Drawing2D.CoordinateSpace.World, System.Drawing.Drawing2D.CoordinateSpace.Device, pts);
            return pts.ToList();
        }
            public void TestAffineTransform2D()
            {
                //Setup some affine transformation
                System.Drawing.Drawing2D.Matrix matrix = new System.Drawing.Drawing2D.Matrix();
                matrix.RotateAt(30, new System.Drawing.PointF(0, 0));
                matrix.Translate(-20, -20, System.Drawing.Drawing2D.MatrixOrder.Append);
                matrix.Shear(0.95f, -0.2f, System.Drawing.Drawing2D.MatrixOrder.Append);

                //Create some random sample data
                CreatingData cd = new CreatingData();
                SharpMap.Data.FeatureDataTable fdt1 =
                cd.CreatePointFeatureDataTableFromArrays(GetRandomOrdinates(80, -180, 180),
                                                         GetRandomOrdinates(80, -90, 90), null);

                //Clone random sample data and apply affine transformation on it
                SharpMap.Data.FeatureDataTable fdt2 = TransformedFeatureDataTable(matrix, fdt1);

                //Get affine transformation with LeastSquaresTransform
                SharpMap.Utilities.LeastSquaresTransform lst = new SharpMap.Utilities.LeastSquaresTransform();

                //Add at least three corresponding points
                lst.AddInputOutputPoint(
                ((SharpMap.Data.FeatureDataRow)fdt1.Rows[0]).Geometry as SharpMap.Geometries.Point,
                ((SharpMap.Data.FeatureDataRow)fdt2.Rows[0]).Geometry as SharpMap.Geometries.Point);

                lst.AddInputOutputPoint(
                ((SharpMap.Data.FeatureDataRow)fdt1.Rows[39]).Geometry as SharpMap.Geometries.Point,
                ((SharpMap.Data.FeatureDataRow)fdt2.Rows[39]).Geometry as SharpMap.Geometries.Point);

                lst.AddInputOutputPoint(
                ((SharpMap.Data.FeatureDataRow)fdt1.Rows[79]).Geometry as SharpMap.Geometries.Point,
                ((SharpMap.Data.FeatureDataRow)fdt2.Rows[79]).Geometry as SharpMap.Geometries.Point);

                /*
                //Get affine transformation calculates mean points to improve accuaracy
                //Unfortunately the result is not very good, so, since I know better I manually set these
                //mean points.
                lst.SetMeanPoints(new SharpMap.Geometries.Point(0, 0),
                              new SharpMap.Geometries.Point(matrix.OffsetX, matrix.OffsetY));
                 */

                //Create Affine
                AffineCoordinateTransformation2D at2 = new AffineCoordinateTransformation2D(lst.GetAffineTransformation());

                //Create Map
                SharpMap.Map map = new SharpMap.Map(new System.Drawing.Size(720, 360));

                //Add not transformed layer
                map.Layers.Add(new SharpMap.Layers.VectorLayer("L1",
                                                           new SharpMap.Data.Providers.GeometryFeatureProvider(fdt1)));
                ((SharpMap.Layers.VectorLayer) map.Layers[0]).Style.Symbol =
                new System.Drawing.Bitmap(@"..\..\..\DemoWinForm\Resources\flag.png");

                //Add transformed layer
                map.Layers.Add(new SharpMap.Layers.VectorLayer("L2",
                                                           new SharpMap.Data.Providers.GeometryFeatureProvider(fdt2)));
                ((SharpMap.Layers.VectorLayer) map.Layers[1]).Style.Symbol =
                new System.Drawing.Bitmap(@"..\..\..\DemoWinForm\Resources\women.png");

                //Render map
                map.ZoomToExtents();

                //Get map and save to file
                var bmp = (System.Drawing.Bitmap)map.GetMap();
                bmp.Save("affinetransform1.bmp");

                //we want to reverse the previously applied transformation.
                ((SharpMap.Layers.VectorLayer) map.Layers[1]).CoordinateTransformation = (AffineCoordinateTransformation2D)at2.Inverse();

                //Render map
                map.ZoomToExtents();

                //Get map and save to file
                bmp = (System.Drawing.Bitmap)map.GetMap();
                bmp.Save("affinetransform2.bmp");
                //Hopefully women cover flags ;-).
            }
Beispiel #36
0
        //TODO: use e.ClipRectangle to limit drawing
        private void mapPanel_Paint(object sender, PaintEventArgs e)
        {
            if (Map == null)
                return;
            PointF nwCorner, neCorner, seCorner, swCorner, center;

            Graphics g = e.Graphics;
            //black out the panel to start out
            Size size = mapPanel.Size;
            g.FillRectangle(ColorLayout.Background, new Rectangle(new Point(0, 0), size));
            Pen pen;

            //draw one more top and left row wall than neccesary
            Rectangle clip = new Rectangle(e.ClipRectangle.Left - squareSize, e.ClipRectangle.Top - squareSize, e.ClipRectangle.Width + squareSize, e.ClipRectangle.Height + squareSize);
            //Bitmap floor = new Bitmap(clip.Width, clip.Height);
            //draw grid
            if (DrawGrid || chkGrid.Checked)
            {
                using (pen = new Pen(Color.Gray, gridThickness))
                {
                    //draw the grid sloppily (an extra screen's worth of lines along either axis)
                    for (int x = -squareSize * (size.Width / squareSize) - 3 * squareSize / 2 % (2 * squareSize); x < 2 * size.Width; x += 2 * squareSize)
                    {
                        int y = -3 * squareSize / 2 % (2 * squareSize);
                        g.DrawLine(pen, new Point(x - 1, y), new Point(y, x - 1));
                        g.DrawLine(pen, new Point(x, y), new Point(size.Width + x, size.Width + y));
                    }
                }
            }

            //draw floor
            if (CurrentMode == Mode.MAKE_FLOOR || chkTileGrid.Checked || CurrentMode == Mode.EDIT_EDGE)//only draw the floor when editing it
            {

                foreach (Map.Tile tile in Map.Tiles.Values)
                {

                    //int x = (int)(tile.Location.X * squareSize - squareSize / 2f);
                    int x = tile.Location.X * squareSize;
                    int y = tile.Location.Y * squareSize;
                    if (chkAltGrid.Checked)
                        pen = ColorLayout.Tiles2;
                    else
                        pen = ColorLayout.Tiles;

                    if (clip.Contains((int)x, (int)y))
                    {
                        /*if (video != null)
                        {
                            System.Drawing.Imaging.ImageAttributes imgAttr = new System.Drawing.Imaging.ImageAttributes();
                            //imgAttr.SetColorKey(Color.Black, Color.Black);
                            video.ExtractOneToPoint(tile.Variations[tile.Variation],ref floor,new Point(x-clip.X,y-clip.Y));
                            floor.Save(tempPath2, System.Drawing.Imaging.ImageFormat.Bmp);
                        }/*
                        /* Old floor lines */
                        center = new PointF(x + squareSize / 2f, y + (3 / 2f) * squareSize);
                        nwCorner = new PointF(x - squareSize / 2f, y + (3 / 2f) * squareSize);
                        neCorner = new PointF(nwCorner.X + squareSize, nwCorner.Y - squareSize);
                        swCorner = new PointF(nwCorner.X + squareSize, nwCorner.Y + squareSize);
                        seCorner = new PointF(neCorner.X + squareSize, neCorner.Y + squareSize);
                        Brush tembrush = floorBrush;
                        if( ThingDb.FloorTiles[tile.graphicId].hascolor )
                            tembrush = new SolidBrush(ThingDb.FloorTiles[tile.graphicId].col);

                        g.FillPolygon(tembrush, new PointF[] { nwCorner, neCorner, seCorner, swCorner });
                        g.DrawPolygon(pen, new PointF[] { nwCorner, neCorner, seCorner, swCorner });

                        //draw the center dot
                        int diam = 2;// +tile.EdgeTiles.Count * 3;
                        PointF ellTL = new PointF(center.X - diam / 2f, center.Y - diam / 2f);
                        if (tile.EdgeTiles.Count > 0)
                            e.Graphics.FillEllipse(Brushes.YellowGreen, ellTL.X, ellTL.Y, diam, diam);
                        else
                            e.Graphics.DrawEllipse(Pens.Brown, ellTL.X, ellTL.Y, diam, diam);

                        //g.DrawString(tile.Location.X.ToString() +":"+ tile.Location.Y.ToString(), new Font("Arial", 10), Brushes.Red, center.X, center.Y);

                  /////
                  /////
                  /////
                  /////
                  /////

                        // Draw edging constructs
                      /*  if (tile.EdgeTiles.Count > 0)
                        {
                            PointF ellTL2 = new PointF(x - (squareSize - 4) / 2f, y + (3 / 2f) * (squareSize - 4));
                            PointF ellTL3 = new PointF(ellTL2.X + (squareSize - 4), ellTL2.Y - (squareSize - 4));
                            if (ThingDb.FloorTiles[tile.graphicId].hascolor)
                                g.DrawLine(new Pen(ThingDb.FloorTiles[tile.graphicId].col, gridThickness * 4), ellTL2, ellTL3);
                            else
                                g.DrawLine(new Pen(Color.Aqua, gridThickness * 4), ellTL2, ellTL3);

                        }*/

                        PointF nwCorner2 = nwCorner;
                        PointF neCorner2 = neCorner;
                        PointF swCorner2 = swCorner;
                        PointF seCorner2 = seCorner;

                        int i = 0;
                        for( i=0; i<tile.EdgeTiles.Count; i++)
                        {
                            int graphId = ((Map.Tile.EdgeTile)tile.EdgeTiles[i]).Graphic;
                            Color col = new Color();
                            if (ThingDb.FloorTiles[graphId].hascolor)
                                col = ThingDb.FloorTiles[graphId].col;
                            else
                                col = Color.Aqua;
                            nwCorner2 = nwCorner;//new PointF(x - squareSize / 2f, y + (3 / 2f) * squareSize);
                            neCorner2 = neCorner;// new PointF(nwCorner.X + squareSize, nwCorner.Y - squareSize);
                            swCorner2 = swCorner;// new PointF(nwCorner.X + squareSize, nwCorner.Y + squareSize);
                            seCorner2 = seCorner;// new PointF(neCorner.X + squareSize, neCorner.Y + squareSize);

                            switch (((Map.Tile.EdgeTile)tile.EdgeTiles[i]).Dir)
                            {
                                case Map.Tile.EdgeTile.Direction.North_08:
                                case Map.Tile.EdgeTile.Direction.North_0A:
                                case Map.Tile.EdgeTile.Direction.North:
                                    nwCorner2.X += 2;
                                    nwCorner2.Y += 2;
                                    neCorner2.X += 2;
                                    neCorner2.Y += 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), nwCorner2, neCorner2);
                                    break;
                                case Map.Tile.EdgeTile.Direction.South_07:
                                case Map.Tile.EdgeTile.Direction.South_09:
                                case Map.Tile.EdgeTile.Direction.South:
                                    swCorner2.X -= 2;
                                    swCorner2.Y -= 2;
                                    seCorner2.X -= 2;
                                    seCorner2.Y -= 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), swCorner2, seCorner2);
                                    break;
                                case Map.Tile.EdgeTile.Direction.East_D:
                                case Map.Tile.EdgeTile.Direction.East_E:
                                case Map.Tile.EdgeTile.Direction.East:
                                    neCorner.X -= 2;
                                    neCorner.Y += 2;
                                    seCorner.X -= 2;
                                    seCorner.Y += 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), neCorner, seCorner);
                                    break;
                                case Map.Tile.EdgeTile.Direction.West_02:
                                case Map.Tile.EdgeTile.Direction.West_03:
                                case Map.Tile.EdgeTile.Direction.West:
                                    nwCorner2.X += 2;
                                    nwCorner2.Y -= 2;
                                    swCorner2.X += 2;
                                    swCorner2.Y -= 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), nwCorner2, swCorner2);
                                    break;
                                case Map.Tile.EdgeTile.Direction.NE_Sides:
                                    neCorner.X -= 2;
                                    neCorner.Y += 2;
                                    seCorner.X -= 2;
                                    seCorner.Y += 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), neCorner, seCorner);
                                    nwCorner2 = nwCorner;
                                    neCorner2 = neCorner;
                                    swCorner2 = swCorner;
                                    seCorner2 = seCorner;
                                    nwCorner2.X += 2;
                                    nwCorner2.Y += 2;
                                    neCorner2.X += 2;
                                    neCorner2.Y += 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), nwCorner2, neCorner2);
                                    break;
                                case Map.Tile.EdgeTile.Direction.NW_Sides:
                                    nwCorner2.X += 2;
                                    nwCorner2.Y -= 2;
                                    swCorner2.X += 2;
                                    swCorner2.Y -= 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), nwCorner2, swCorner2);
                                    nwCorner2 = nwCorner;
                                    neCorner2 = neCorner;
                                    swCorner2 = swCorner;
                                    seCorner2 = seCorner;
                                    nwCorner2.X += 2;
                                    nwCorner2.Y += 2;
                                    neCorner2.X += 2;
                                    neCorner2.Y += 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), nwCorner2, neCorner2);
                                    break;
                                case Map.Tile.EdgeTile.Direction.SE_Sides:
                                    swCorner2.X -= 2;
                                    swCorner2.Y -= 2;
                                    seCorner2.X -= 2;
                                    seCorner2.Y -= 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), swCorner2, seCorner2);
                                    nwCorner2 = nwCorner;
                                    neCorner2 = neCorner;
                                    swCorner2 = swCorner;
                                    seCorner2 = seCorner;
                                    neCorner.X -= 2;
                                    neCorner.Y += 2;
                                    seCorner.X -= 2;
                                    seCorner.Y += 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), neCorner, seCorner);
                                    break;

                                case Map.Tile.EdgeTile.Direction.SW_Sides:
                                    swCorner2.X -= 2;
                                    swCorner2.Y -= 2;
                                    seCorner2.X -= 2;
                                    seCorner2.Y -= 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), swCorner2, seCorner2);
                                    nwCorner2 = nwCorner;
                                    neCorner2 = neCorner;
                                    swCorner2 = swCorner;
                                    seCorner2 = seCorner;
                                    nwCorner2.X += 2;
                                    nwCorner2.Y -= 2;
                                    swCorner2.X += 2;
                                    swCorner2.Y -= 2;
                                    g.DrawLine(new Pen(col, gridThickness * 4), nwCorner2, swCorner2);
                                    break;
                                case Map.Tile.EdgeTile.Direction.NE_Tip:
                                   /* //neCorner.X += 2;
                                    //neCorner.Y -= 2;
                                    PointF tem = neCorner2;
                                    tem.X -= 4;
                                    tem.Y += 4;
                                    PointF tem2 = neCorner2;
                                    tem.X += 4;
                                    tem2.Y += 4;
                                    g.FillPolygon(new SolidBrush(col), new PointF[] { neCorner2, tem, tem2 });
                                    //g.DrawLine(new Pen(col, gridThickness * 4), nwCorner, swCorner);
                                    */break;
                                case Map.Tile.EdgeTile.Direction.SE_Tip: break;
                                case Map.Tile.EdgeTile.Direction.SW_Tip: break;
                                case Map.Tile.EdgeTile.Direction.NW_Tip: break;

                                default: break;
                            }

                        }

                  /////
                  /////
                  /////
                  /////
                  /////
                  /////

                    }
                }
                //floor.Save("c:\\file.bmp");
                //e.Graphics.DrawImage(floor, new Point(clip.X + 40, clip.Y + 40));
            }
            if (CurrentMode == Mode.MAKE_FLOOR || CurrentMode == Mode.EDIT_EDGE)
            {
                // Draw the overlay to show tile location
                Point pt = new Point(mouseLocation.X, mouseLocation.Y);
                Point tilePt = GetNearestTilePoint(pt);
                int squareSize2 = squareSize;
                if (threeFloorBox.Checked && CurrentMode == Mode.MAKE_FLOOR)
                {
                    squareSize2 *= 3;
                    tilePt.X -= 1;
                    tilePt.Y -= 3;
                }
                tilePt.X *= squareSize;
                tilePt.Y *= squareSize;

                center = new PointF(tilePt.X + squareSize / 2f, tilePt.Y + (3 / 2f) * squareSize);
                nwCorner = new PointF(tilePt.X - squareSize2 / 2f, tilePt.Y + (3 / 2f) * squareSize2);
                neCorner = new PointF(nwCorner.X + squareSize2, nwCorner.Y - squareSize2);
                swCorner = new PointF(nwCorner.X + squareSize2, nwCorner.Y + squareSize2);
                seCorner = new PointF(neCorner.X + squareSize2, neCorner.Y + squareSize2);
                if( CurrentMode == Mode.MAKE_FLOOR )
                    g.DrawPolygon(new Pen(Color.Yellow, gridThickness * 2), new PointF[] { nwCorner, neCorner, seCorner, swCorner });
                else if( CurrentMode == Mode.EDIT_EDGE )
                    g.DrawPolygon(new Pen(Color.Aqua, gridThickness * 2), new PointF[] { nwCorner, neCorner, seCorner, swCorner });
            }
            //draw walls
            foreach (Map.Wall wall in Map.Walls.Values)
            {
                Point pt = wall.Location;
                int x = pt.X * squareSize, y = pt.Y * squareSize;
                if (clip.Contains(x, y))
                {
                    //TODO: how to draw if a destructable window? is this even possible?
                    if (wall.Destructable)
                        pen = new Pen(Color.Red, wallThickness);
                    else if (wall.Window)
                        pen = new Pen(Color.Orange, wallThickness);
                    else if (wall.Secret)
                        pen = new Pen(Color.Green, wallThickness);
                    else
                        pen = new Pen(ColorLayout.Walls, wallThickness);
                    center = new PointF(x + squareSize / 2f, y + squareSize / 2f);
                    Point nCorner = new Point(x, y);
                    Point sCorner = new Point(x + squareSize, y + squareSize);
                    Point wCorner = new Point(x + squareSize, y);
                    Point eCorner = new Point(x, y + squareSize);
                    switch (wall.Facing)
                    {
                        case Map.Wall.WallFacing.NORTH:
                            g.DrawLine(pen, wCorner, eCorner);
                            break;
                        case Map.Wall.WallFacing.WEST:
                            g.DrawLine(pen, nCorner, sCorner);
                            break;
                        case Map.Wall.WallFacing.CROSS:
                            g.DrawLine(pen, wCorner, eCorner);//north wall
                            g.DrawLine(pen, nCorner, sCorner);//south wall
                            break;
                        case Map.Wall.WallFacing.NORTH_T:
                            g.DrawLine(pen, wCorner, eCorner);//north wall
                            g.DrawLine(pen, center, sCorner);//tail towards south
                            break;
                        case Map.Wall.WallFacing.SOUTH_T:
                            g.DrawLine(pen, wCorner, eCorner);//north wall
                            g.DrawLine(pen, center, nCorner);//tail towards north
                            break;
                        case Map.Wall.WallFacing.WEST_T:
                            g.DrawLine(pen, nCorner, sCorner);//west wall
                            g.DrawLine(pen, center, eCorner);//tail towards east
                            break;
                        case Map.Wall.WallFacing.EAST_T:
                            g.DrawLine(pen, nCorner, sCorner);//west wall
                            g.DrawLine(pen, center, wCorner);//tail towards west
                            break;
                        case Map.Wall.WallFacing.NE_CORNER:
                            g.DrawLine(pen, center, eCorner);
                            g.DrawLine(pen, center, sCorner);
                            break;
                        case Map.Wall.WallFacing.NW_CORNER:
                            g.DrawLine(pen, center, wCorner);
                            g.DrawLine(pen, center, sCorner);
                            break;
                        case Map.Wall.WallFacing.SW_CORNER:
                            g.DrawLine(pen, center, nCorner);
                            g.DrawLine(pen, center, wCorner);
                            break;
                        case Map.Wall.WallFacing.SE_CORNER:
                            g.DrawLine(pen, center, nCorner);
                            g.DrawLine(pen, center, eCorner);
                            break;
                        default:
                            g.DrawRectangle(pen, x, y, squareSize, squareSize);
                            g.DrawString("?", new Font("Arial", 12), Brushes.Red, nCorner);
                            break;
                    }
                    pen.Dispose();

                    g.DrawString(wall.Minimap.ToString(), new Font("Arial", 10), Brushes.Red, x, y);
                }
            }

            //draw objects
            if (chkShowObj.Checked)
            {
                foreach (Map.Object oe in Map.Objects)
                {
                    PointF ptf = oe.Location;
                    if (clip.Contains((int)ptf.X, (int)ptf.Y))
                    {
                        float x = ptf.X, y = ptf.Y;

                        center = new PointF(x, y);
                        PointF topLeft = new PointF(center.X - objectSelectionRadius, center.Y - objectSelectionRadius);
                        if (SelectedObject != null && SelectedObject.Location.Equals(oe.Location))
                            pen = Pens.Green;
                        else
                            pen = ColorLayout.Objects;
                        g.DrawEllipse(pen, new RectangleF(topLeft, new Size(2 * objectSelectionRadius, 2 * objectSelectionRadius)));
                        if (ShowExtents)
                        {
                            if (!(!ShowAllExtents && ((ThingDb.Things[oe.Name].Flags & ThingDb.Thing.FlagsFlags.NO_COLLIDE) == ThingDb.Thing.FlagsFlags.NO_COLLIDE)))
                            {
                                if (ThingDb.Things[oe.Name].ExtentType == "CIRCLE")
                                {
                                    PointF t = new PointF(center.X - ThingDb.Things[oe.Name].ExtentX, center.Y - ThingDb.Things[oe.Name].ExtentX);
                                    PointF p = new PointF((center.X) - ThingDb.Things[oe.Name].ExtentX, (center.Y - (ThingDb.Things[oe.Name].ZSizeY)) - ThingDb.Things[oe.Name].ExtentX);

                                    Pen rotatePen;

                                    if (oe.Name.Contains("Amb"))
                                    {
                                        rotatePen = new Pen(Color.LightGray, 1);
                                    }
                                    else
                                        rotatePen = new Pen(Color.Green, 1);

                                    PointF point1 = new PointF(t.X, t.Y);
                                    point1.Y += ThingDb.Things[oe.Name].ExtentX;
                                    PointF point2 = new PointF(p.X, p.Y);
                                    point2.Y += ThingDb.Things[oe.Name].ExtentX;

                                    g.DrawLine(rotatePen, point1, point2);

                                    point1.X += ThingDb.Things[oe.Name].ExtentX * 2;
                                    point2.X += ThingDb.Things[oe.Name].ExtentX * 2;

                                    g.DrawLine(rotatePen, point1, point2);

                                    g.DrawEllipse(rotatePen, new RectangleF(t, new Size(2 * ThingDb.Things[oe.Name].ExtentX, 2 * ThingDb.Things[oe.Name].ExtentX)));
                                    g.DrawEllipse(rotatePen, new RectangleF(p, new Size(2 * ThingDb.Things[oe.Name].ExtentX, 2 * ThingDb.Things[oe.Name].ExtentX)));
                                }
                                if (ThingDb.Things[oe.Name].ExtentType == "BOX")
                                {
                                    Point t = new Point((int)(center.X - (ThingDb.Things[oe.Name].ExtentX / 2)), (int)(center.Y - (ThingDb.Things[oe.Name].ExtentY / 2)));
                                    Point p = new Point((int)((center.X - (ThingDb.Things[oe.Name].ZSizeY / 2)) - (ThingDb.Things[oe.Name].ExtentX / 2)), (int)((center.Y - (ThingDb.Things[oe.Name].ZSizeY / 2)) - (ThingDb.Things[oe.Name].ExtentY / 2)));

                                    using (System.Drawing.Drawing2D.Matrix m = new System.Drawing.Drawing2D.Matrix())
                                    {
                                        m.RotateAt(45, center);
                                        g.Transform = m;
                                        Pen rotatePen = new Pen(Color.Green, 1);

                                        PointF point1 = new PointF(t.X, t.Y);
                                        PointF point2 = new PointF(p.X, p.Y);
                                        g.DrawLine(rotatePen, point1, point2);

                                        point1 = new PointF(t.X, t.Y);
                                        point2 = new PointF(p.X, p.Y);
                                        point1.Y += ThingDb.Things[oe.Name].ExtentY;
                                        point2.Y += ThingDb.Things[oe.Name].ExtentY;
                                        g.DrawLine(rotatePen, point1, point2);

                                        point1 = new PointF(t.X, t.Y);
                                        point2 = new PointF(p.X, p.Y);
                                        point1.X += ThingDb.Things[oe.Name].ExtentX;
                                        point2.X += ThingDb.Things[oe.Name].ExtentX;
                                        g.DrawLine(rotatePen, point1, point2);

                                        point1 = new PointF(t.X, t.Y);
                                        point2 = new PointF(p.X, p.Y);
                                        point1.X += ThingDb.Things[oe.Name].ExtentX;
                                        point2.X += ThingDb.Things[oe.Name].ExtentX;
                                        point1.Y += ThingDb.Things[oe.Name].ExtentY;
                                        point2.Y += ThingDb.Things[oe.Name].ExtentY;
                                        g.DrawLine(rotatePen, point1, point2);

                                        g.DrawRectangle(rotatePen, new Rectangle(t, new Size(ThingDb.Things[oe.Name].ExtentX, ThingDb.Things[oe.Name].ExtentY)));
                                        g.DrawRectangle(rotatePen, new Rectangle(p, new Size(ThingDb.Things[oe.Name].ExtentX, ThingDb.Things[oe.Name].ExtentY)));
                                        //g.ResetTransform();
                                        g.ResetTransform();
                                    }
                                }
                            }
                        }
                        if (!ShowObjectNames)
                            g.DrawString(oe.Extent.ToString(), new Font("Arial", 10), Brushes.Purple, topLeft);
                        else
                            g.DrawString(oe.Name, new Font("Arial", 10), Brushes.Green, topLeft);

                       // ThingDb.Things.Keys.
                    }
                }
            }
            //draw polygons
            if (ShowPolygons)
            {
                foreach (Map.Polygon poly in Map.Polygons)
                {
                    pen = Pens.PaleGreen;
                    ArrayList points = new ArrayList();
                    foreach (PointF pt in poly.Points)
                        points.Add(new PointF(pt.X, pt.Y));
                    if (points.Count > 2)
                    {
                        points.Add(points[0]);//complete the loop
                        g.DrawLines(pen, (PointF[])points.ToArray(typeof(PointF)));
                    }
                }
            }
            //draw waypoints
            if (ShowWaypoints)
            {
                foreach (Map.Waypoint wp in Map.Waypoints)
                {
                    if (KeyStates.wp1 != null && wp == KeyStates.wp1)
                        pen = Pens.Aqua;
                    else
                        pen = Pens.Olive;
                    center = new PointF(wp.Point.X - objectSelectionRadius, wp.Point.Y - objectSelectionRadius);
                    g.DrawEllipse(pen, new RectangleF(center, new Size(2 * objectSelectionRadius, 2 * objectSelectionRadius)));

                    //code/idea from UndeadZeus
                    foreach (Map.Waypoint.WaypointConnection wpc in wp.connections)
                    {
                        g.DrawLine(pen, wp.Point.X, wp.Point.Y, wpc.wp.Point.X, wpc.wp.Point.Y);
                        foreach (Map.Waypoint.WaypointConnection wpwp in wpc.wp.connections)//Checks if the waypoint connection is connecting to wp
                        {
                            if (wpwp.wp.Equals(wp))
                            {
                                if (KeyStates.wp1 != null && wp == KeyStates.wp1)
                                    g.DrawLine(Pens.Aqua, wp.Point.X, wp.Point.Y, wpc.wp.Point.X, wpc.wp.Point.Y);
                                else
                                    g.DrawLine(Pens.Orange, wp.Point.X, wp.Point.Y, wpc.wp.Point.X, wpc.wp.Point.Y);
                                break;
                            }
                        }
                    }
                    if (wp.Name.Length > 0)
                        g.DrawString(wp.num + ":" + wp.Name, new Font("Arial", 8), Brushes.Purple, center);
                    else
                        g.DrawString(wp.num + "", new Font("Arial", 8), Brushes.Purple, center);
                }
            }
            //draw drag line
            if (dragging == true)
            {
                switch (CurrentMode)
                {
                    case Mode.MAKE_WALL:
                        pen = Pens.Green;
                        int length = (int)Distance(wallDrag, wallMouseLocation);
                        int newX = wallDrag.X + (int)Math.Sqrt((length * length) / 2) * (wallMouseLocation.X >= wallDrag.X ? 1 : (-1));
                        int newY = wallDrag.Y + (int)Math.Sqrt((length * length) / 2) * (wallMouseLocation.Y >= wallDrag.Y ? 1 : (-1));
                        g.DrawLine(pen, wallDrag.X * 23, wallDrag.Y * 23, newX * 23, newY * 23);
                        break;
                    case Mode.SELECT:
                        if (SelectedObject != null)
                        {
                            pen = Pens.Green;
                            PointF topLeft = new PointF(mouseLocation.X - objectSelectionRadius, mouseLocation.Y - objectSelectionRadius);
                            g.DrawEllipse(pen, new RectangleF(topLeft, new Size(2 * objectSelectionRadius, 2 * objectSelectionRadius)));
                        }
                        break;
                    case Mode.MAKE_FLOOR:
                        pen = Pens.Green;
                        Point tilePt = GetNearestTilePoint(mouseLocation);
                        Point topLeftPt;
                        int w = tilePt.X - tileDrag.X, h = tilePt.Y - tileDrag.Y;
                        if (w < 0)
                            topLeftPt = new Point(tileDrag.X + w, 0);
                        else
                            topLeftPt = new Point(tileDrag.X, 0);
                        if (h < 0)
                            topLeftPt = new Point(topLeftPt.X, tileDrag.Y + h);
                        else
                            topLeftPt = new Point(topLeftPt.X, tileDrag.Y);
                        for (int i = 0; i <= w; i++)
                        {
                            for (int k = 0; k <= h; k++)
                            {
                                tilePt = GetNearestTilePoint(new Point((topLeftPt.X + i) * squareSize, (topLeftPt.Y + k) * squareSize));
                                tilePt = new Point(tilePt.X * squareSize, tilePt.Y * squareSize);
                                center = new PointF(tilePt.X + squareSize / 2f, tilePt.Y + (3 / 2f) * squareSize);
                                nwCorner = new PointF(tilePt.X - squareSize / 2f, tilePt.Y + (3 / 2f) * squareSize);
                                neCorner = new PointF(nwCorner.X + squareSize, nwCorner.Y - squareSize);
                                swCorner = new PointF(nwCorner.X + squareSize, nwCorner.Y + squareSize);
                                seCorner = new PointF(neCorner.X + squareSize, neCorner.Y + squareSize);
                                g.DrawPolygon(pen, new PointF[] { nwCorner, neCorner, seCorner, swCorner });
                            }
                        }
                        break;
                }
            }
        }
Beispiel #37
0
        private void Carte_Paint(object sender, PaintEventArgs e)
        {
            int i;
            double w, h;
            //projet = ((Musliw.MusliW)(this.MdiParent)).projet;
            Graphics page = e.Graphics;

            //page.Clear(this.BackColor);

            w = this.Width;
            h = this.Height;

            Pen stylo = new Pen(fen.stylo_couleur, (int)fen.epaisseur);
            Font fonte = new Font(FontFamily.GenericSansSerif, 7,FontStyle.Bold);
            this.ForeColor = Color.Black;
            Brush brosse =new SolidBrush(fen.brosse_couleur);
            Brush brosse_texte = new SolidBrush(fen.couleur_texte);
            double dx = w / (projet.reseaux[nproj].xu - projet.reseaux[nproj].xl);
            double dy = h / (projet.reseaux[nproj].yu - projet.reseaux[nproj].yl);
            double deltax,deltay,voldeltax,voldeltay;
            double cx = 0.5f * (projet.reseaux[nproj].xu + projet.reseaux[nproj].xl);
            double cy = 0.5f * (projet.reseaux[nproj].yu + projet.reseaux[nproj].yl);

            //MessageBox.Show(xl.ToString() + " " + yu.ToString());
            PointF p1=new PointF();
            PointF p2 = new PointF();
            PointF p3 = new PointF();
            PointF p4 = new PointF();
            PointF p5 = new PointF();

            PointF[] points = new PointF[4] ;
               double angle=0,norme=0;
            double sinx = 0, cosx = 1;
            if (fen.volume_echelle < 1e-6f)
            {
                fen.volume_echelle = 1e-6f;
            }
            for (i = 0; i < projet.reseaux[nproj].links.Count; i++)
            {
                norme = fen.norme(projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].y, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].y, fen.ecart + 0.5f * fen.epaisseur);
                if ((projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].is_visible == true && projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].is_visible == true && norme > 0) && (projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].is_valid == true && projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].is_valid == true))
                {

                    //page.DrawRectangle(stylo, 0f, 0f, 200, 200);
                    //MessageBox.Show(((res.nodes[i].x - res.xl) * delta).ToString() + " " + ((res.yu - res.nodes[i].y) * delta).ToString()+" "+w.ToString()+" "+h.ToString());
                deltax = fen.deltax(projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].y, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].y, fen.ecart+0.5f*fen.epaisseur);
                deltay = fen.deltay(projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].y, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].y, fen.ecart+0.5f*fen.epaisseur);
                cosx = fen.deltax(projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].y, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].y, 1);
                sinx = fen.deltay(projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].y, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].y, 1);

                    voldeltax = fen.deltax(projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].y, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].y, fen.ecart + 0.5f * fen.epaisseur + projet.reseaux[projet.reseau_actif].links[i].volau / fen.volume_echelle);
                    voldeltay = fen.deltay(projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].x, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].y, projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].y, fen.ecart + 0.5f * fen.epaisseur + projet.reseaux[projet.reseau_actif].links[i].volau / fen.volume_echelle);
                    page.DrawLine(stylo, (float)(((projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].x - fen.xl) / fen.echelle) + deltay), (float)(((fen.yu - projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].y) / fen.echelle) + deltax),(float) (((projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].x - fen.xl) / fen.echelle) + deltay),(float) (((fen.yu - projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].y) / fen.echelle) + deltax));

                    p1.X = (float)(((projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].x - fen.xl) / fen.echelle) + deltay);
                    p1.Y = (float)(((fen.yu - projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].y) / fen.echelle) + deltax);
                    p2.X = (float)(((projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].x - fen.xl) / fen.echelle) + voldeltay);
                    p2.Y = (float)(((fen.yu - projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].no].y) / fen.echelle) + voldeltax);
                    p3.X = (float)(((projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].x - fen.xl) / fen.echelle) + voldeltay);
                    p3.Y = (float)(((fen.yu - projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].y) / fen.echelle) + voldeltax);
                    p4.X = (float)(((projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].x - fen.xl) / fen.echelle) + deltay);
                    p4.Y = (float)(((fen.yu - projet.reseaux[nproj].nodes[projet.reseaux[nproj].links[i].nd].y) / fen.echelle) + deltax);

                    System.Drawing.Drawing2D.GraphicsPath epaisseur = new System.Drawing.Drawing2D.GraphicsPath();
                    System.Drawing.Drawing2D.GraphicsPath texte_epaisseur = new System.Drawing.Drawing2D.GraphicsPath();
                    epaisseur.StartFigure();
                    points[0] = p1;
                    points[1] = p2;
                    points[2] = p3;
                    points[3] = p4;

                    epaisseur.AddPolygon(points);
                    epaisseur.CloseFigure();
                    //page.FillPath(brosse, epaisseur);
                    //page.FillPolygon(brosse, points);
                    //page.DrawPolygon(stylo,points);
                    epaisseur.Reset();
                    texte_epaisseur.StartFigure();
                    p5.X = 0.5f * (p3.X + p2.X);
                    p5.Y = 0.5f * (p3.Y + p2.Y);
                    texte_epaisseur.AddString(projet.reseaux[projet.reseau_actif].links[i].volau.ToString("0"), FontFamily.GenericSansSerif, 0, (float)fen.taille_texte, new PointF(p5.X, p5.Y), StringFormat.GenericDefault);
                    RectangleF encombrement = texte_epaisseur.GetBounds();
                    // texte_epaisseur.AddRectangle(encombrement);
                    //texte_epaisseur.AddPie(p5.X,p5.Y,2,2,0,360);

                    page.FillPolygon(brosse, points);
                    page.DrawPolygon(stylo, points);

                    if (encombrement.Width < fen.norme(p1.X, p4.X, p1.Y, p4.Y, 1) && projet.reseaux[projet.reseau_actif].links[i].volau > 0)
                    {
                        System.Drawing.Drawing2D.Matrix rotation = new System.Drawing.Drawing2D.Matrix();

                        if (cosx >= 0 && sinx <= 0)
                        {
                            angle = 180f * ((float)Math.Acos(cosx) / (float)Math.PI);
                            rotation.RotateAt((float)angle, p5);
                            rotation.Translate(p5.X - encombrement.X, p5.Y - encombrement.Y);
                            System.Drawing.Drawing2D.Matrix trans = new System.Drawing.Drawing2D.Matrix();
                            texte_epaisseur.Transform(rotation);
                            trans.Translate((float)(-0.5f * encombrement.Width * cosx),(float)( 0.5f * encombrement.Width * sinx));
                            texte_epaisseur.Transform(trans);
                            texte_epaisseur.CloseFigure();
                            page.FillPath(brosse_texte, texte_epaisseur);

                        }
                        else if (cosx <= 0 && sinx >= 0)
                        {
                            angle = 180f - 180f * ((float)Math.Acos(cosx) / (float)Math.PI);
                            rotation.RotateAt((float)angle, p5);
                            rotation.Translate(p5.X - encombrement.X, p5.Y - encombrement.Y);
                            System.Drawing.Drawing2D.Matrix trans = new System.Drawing.Drawing2D.Matrix();
                            texte_epaisseur.Transform(rotation);
                            trans.Translate((float)(+0.5f * encombrement.Width * cosx + (encombrement.Height) * sinx),(float)( -0.5f * encombrement.Width * sinx + (encombrement.Height) * cosx));
                            texte_epaisseur.Transform(trans);
                            texte_epaisseur.CloseFigure();

                            page.FillPath(brosse_texte, texte_epaisseur);

                        }
                        else if (cosx >= 0 && sinx >= 0)
                        {
                            angle = -180f * (float)Math.Acos(cosx) / (float)Math.PI;
                            rotation.RotateAt((float)angle, p5);
                            rotation.Translate(p5.X - encombrement.X, p5.Y - encombrement.Y);
                            System.Drawing.Drawing2D.Matrix trans = new System.Drawing.Drawing2D.Matrix();
                            texte_epaisseur.Transform(rotation);
                            trans.Translate((float)(-0.5f * encombrement.Width * cosx),(float)( 0.5f * encombrement.Width * sinx));
                            texte_epaisseur.Transform(trans);
                            texte_epaisseur.CloseFigure();

                            page.FillPath(brosse_texte, texte_epaisseur);
                        }
                        else if (cosx <= 0 && sinx <= 0)
                        {
                            angle = 180 + 180f * ((float)Math.Acos(cosx) / (float)Math.PI);
                            rotation.RotateAt((float)angle, p5);
                            rotation.Translate(p5.X - encombrement.X, p5.Y - encombrement.Y);
                            System.Drawing.Drawing2D.Matrix trans = new System.Drawing.Drawing2D.Matrix();
                            texte_epaisseur.Transform(rotation);
                            trans.Translate((float)(+0.5f * encombrement.Width * cosx + (encombrement.Height) * sinx),(float)( -0.5f * encombrement.Width * sinx + (encombrement.Height) * cosx));
                            texte_epaisseur.Transform(trans);
                            texte_epaisseur.CloseFigure();

                            page.FillPath(brosse_texte, texte_epaisseur);
                        }

                    }
                    epaisseur.Dispose();
                    texte_epaisseur.Dispose();
                }

            }
            /*        for (i = 0; i < projet.reseaux[nproj].nodes.Count; i++)
            {
                if (projet.reseaux[nproj].nodes[i].i != 0)
                {
                    //page.DrawRectangle(stylo, 0f, 0f, 200, 200);
                    //MessageBox.Show(((res.nodes[i].x - res.xl) * delta).ToString() + " " + ((res.yu - res.nodes[i].y) * delta).ToString()+" "+w.ToString()+" "+h.ToString());
                    page.FillRectangle(brosse, (res.nodes[i].x - res.xl) * delta, (res.yu - res.nodes[i].y) * delta, 30f, 20f);
                    page.DrawRectangle(stylo, (res.nodes[i].x - res.xl) * delta, (res.yu - res.nodes[i].y) * delta, 30f, 20f);
                    page.DrawString(res.nodes[i].i.ToString(), fonte, Brushes.Black, new RectangleF((res.nodes[i].x - res.xl) * delta, (res.yu - res.nodes[i].y) * delta, 30f, 20f));
                }
            }*/
        }
Beispiel #38
0
        private static PointF GetUpperCorner( float rotation, float left, float top, float width, float height )
        {
            // BUG 1006: Need to account for rotation when determining bounds
            if( rotation != 0 ) {
                PointF[] pts = new PointF[4];
                pts[0] = new PointF( left, top );
                pts[1] = new PointF( left, top + height );
                pts[2] = new PointF( left + width, top );
                pts[3] = new PointF( left + width, top + height );

                // Rotate the points
                System.Drawing.Drawing2D.Matrix m = new System.Drawing.Drawing2D.Matrix();
                m.RotateAt( rotation, new PointF( left + width/2.0f, top + height/2.0f ) );
                m.TransformPoints( pts );

                return new PointF( Math.Min( Math.Min( Math.Min( pts[0].X, pts[1].X ), pts[2].X ), pts[3].X ),
                                   Math.Min( Math.Min( Math.Min( pts[0].Y, pts[1].Y ), pts[2].Y ), pts[3].Y ) );
            } else {
                return new PointF( left, top );
            }
        }
Beispiel #39
0
 public void rotatePoint(PointF centerpoint, float angle, ref PointF dstpoint)
 {
     System.Drawing.Drawing2D.Matrix mat = new System.Drawing.Drawing2D.Matrix();
     mat.RotateAt(angle, centerpoint);
     PointF[] arraypoints = new PointF[1];
     arraypoints[0] =  dstpoint;
     mat.TransformPoints(arraypoints);
     dstpoint = arraypoints[0];
 }
Beispiel #40
0
        public static Image RotateImage(Image inputImg, double degreeAngle)
        {
            //Corners of the image
            PointF[] rotationPoints = { new PointF(0, 0),
                                        new PointF(inputImg.Width, 0),
                                        new PointF(0, inputImg.Height),
                                        new PointF(inputImg.Width, inputImg.Height)};

            //Rotate the corners
            PointMath.RotatePoints(rotationPoints, new PointF(inputImg.Width / 2.0f, inputImg.Height / 2.0f), degreeAngle);

            //Get the new bounds given from the rotation of the corners
            //(avoid clipping of the image)
            Rectangle bounds = PointMath.GetBounds(rotationPoints);

            //An empy bitmap to draw the rotated image
            Bitmap rotatedBitmap = new Bitmap(bounds.Width, bounds.Height);

            using (Graphics g = Graphics.FromImage(rotatedBitmap))
            {
                g.SmoothingMode = System.Drawing.Drawing2D.SmoothingMode.HighQuality;
                g.InterpolationMode = System.Drawing.Drawing2D.InterpolationMode.HighQualityBicubic;

                //Transformation matrix
                System.Drawing.Drawing2D.Matrix m = new System.Drawing.Drawing2D.Matrix();
                m.RotateAt((float)degreeAngle, new PointF(inputImg.Width / 2.0f, inputImg.Height / 2.0f));
                m.Translate(-bounds.Left, -bounds.Top, System.Drawing.Drawing2D.MatrixOrder.Append); //shift to compensate for the rotation

                g.Transform = m;
                g.DrawImage(inputImg, 0, 0);
            }
            return (Image)rotatedBitmap;
        }
Beispiel #41
0
        /// <summary>
        /// Update function of map. Calls Bayes filtering and handles the rotation and translation of all map objects.
        /// </summary>
        private void Update(object sender, EventArgs e)
        {
            lock (robot.mapLock)
            {
                Bayes(true, preySensor, ref preyProbability);
                Bayes(false, obstacleSensor, ref obstacleProbability);
                bBayes = new Bitmap(bMap.Size.Width, bMap.Size.Height);
                SetNewRovioPosition();

                // Run AStar if there is a suitable destination and draw it on the map.
                using (graphics = Graphics.FromImage(bBayes))
                {
                    AStar astar = new AStar(finalMap.GetLength(0), finalMap.GetLength(1));
                    astar.Build(finalMap, new DPoint(destination.X, destination.Y), new DPoint((picBoxRovio.Location.X / 10) + (picBoxRovio.Width / 10 / 2), picBoxRovio.Location.Y / 10));
                    aStarPath = astar.path;
                    for (int i = 0; i < maxX; i++)
                    {
                        for (int j = 0; j < maxY; j++)
                        {
                            graphics.FillRectangle(new SolidBrush(DColor.FromArgb((int)(preyProbability[i, j] * 255), System.Drawing.Color.DarkRed)), new DRectangle(i * 10, j * 10, 10, 10));
                            graphics.FillRectangle(new SolidBrush(DColor.FromArgb((int)(obstacleProbability[i, j] * 255), System.Drawing.Color.DarkBlue)), new DRectangle(i * 10, j * 10, 10, 10));
                            if (astar.inPath[i, j])
                                graphics.FillRectangle(new SolidBrush(DColor.Red), new DRectangle(i * 10, j * 10, 10, 10));
                        }
                    }
                }
                picBoxBayes.Image = bBayes;

                // Check which cells are within the viewing cone.
                if (viewConePoints != null)
                {
                    for (int i = 0; i < maxX; i++)
                    {
                        for (int j = 0; j < maxY; j++)
                        {
                            DPoint a = new DPoint(i * 10 + 1, j * 10 + 1); // Top left
                            DPoint b = new DPoint((i + 1) * 10 - 1, j * 10 + 1); // Top right
                            DPoint c = new DPoint(i * 10 + 1, (j + 1) * 10 - 1); // Bottom left
                            DPoint d = new DPoint((i + 1) * 10 - 1, (j + 1) * 10 - 1); // Bottom right
                            if (!(PointInPolygon(a, viewConePoints) || PointInPolygon(b, viewConePoints)
                                || PointInPolygon(c, viewConePoints) || PointInPolygon(d, viewConePoints)))
                            {
                                isCellVisible[i, j] = false;
                            }
                            else
                            {
                                preySensor[i, j] = false;
                                obstacleSensor[i, j] = false;
                                isCellVisible[i, j] = true;
                            }
                        }
                    }
                }

                if (robot.GetType() == typeof(Rovio.PredatorMap))
                {
                    if (robot.IsPreySeen())
                    {
                        FindRelativeLocation(picBoxPrey, robot.preyRectangle, robot.GetPreyDistance(), 1, 1);

                        try
                        {
                            preySensor[(int)((picBoxPrey.Location.X / 10) + 1.5), (int)((picBoxPrey.Location.Y / 10) + 1.5)] = true;
                        } catch { }
                    }
                    else
                        picBoxPrey.Hide();

                    if ((robot as Rovio.BaseArena).IsObstacleSeen())
                    {
                        // Find obstacle position relative to the Rovio's position.
                        FindRelativeLocation(picBoxObstacle, robot.obstacleRectangle, robot.GetObstacleDistance(), 40, 3);
                        try
                        {
                            int p = (int)((picBoxObstacle.Location.X / 10) + 0.5);
                            int q = (int)((picBoxObstacle.Location.Y / 10) + 0.5);

                            // Populate 3x3 area with the obstacle.
                            for (int i = -1; i <= 1; i++)
                                for (int j = -1; j <= 1; j++)
                                    obstacleSensor[(int)((picBoxObstacle.Location.X / 10) + i), (int)((picBoxObstacle.Location.Y / 10) + j)] = true;
                        }
                        catch { }
                    }
                    else
                        picBoxObstacle.Hide();
                }

                // Rotate the Rovio icon to the angle that the robot physically faces.
                System.Drawing.Drawing2D.Matrix matrixRovio = new System.Drawing.Drawing2D.Matrix();
                matrixRovio.RotateAt((float)robot.cumulativeAngle, new System.Drawing.Point(picBoxRovio.Location.X + (picBoxRovio.Size.Width / 2), picBoxRovio.Location.Y + (picBoxRovio.Size.Height / 2)));
                matrixRovio.Translate(0f, -0f);
                DPoint[] rovioMovementPoints = {new DPoint(picBoxRovio.Location.X+(picBoxRovio.Size.Width/2), picBoxRovio.Location.Y + (picBoxRovio.Size.Height/2)),
                                                    new DPoint(picBoxRovio.Location.X+(picBoxRovio.Size.Width/2) - 69, picBoxRovio.Location.Y-150),
                                                    new DPoint(picBoxRovio.Location.X+(picBoxRovio.Size.Width/2) + 69, picBoxRovio.Location.Y-150)};
                matrixRovio.TransformPoints(rovioMovementPoints);

                if ((robot as Rovio.BaseArena).IsObstacleSeen())
                {
                    // Get the left and right points of the obstacle in the viewing cone and orientate accordingly.
                    DPoint leftPoint = new DPoint(picBoxObstacle.Location.X - (picBoxObstacle.Width / 2), picBoxObstacle.Location.Y - 15);
                    DPoint rightPoint = leftPoint;
                    using (matrix = new System.Drawing.Drawing2D.Matrix())
                    {
                        matrix.RotateAt((float)robot.cumulativeAngle, leftPoint);
                        matrix.Translate(0, -0f);

                        DPoint[] tempPointArr = { leftPoint };
                        matrix.TransformPoints(tempPointArr);
                        leftPoint = tempPointArr[0];

                        // Transform the right point relative to the position of the left.
                        matrix = new System.Drawing.Drawing2D.Matrix();
                        matrix.RotateAt((float)robot.cumulativeAngle, leftPoint);
                        matrix.Translate(30, 0);
                        tempPointArr[0] = new DPoint(0, 0);
                        matrix.TransformPoints(tempPointArr);
                        rightPoint = tempPointArr[0];
                    }

                    // Check if all points are still within the viewing cone. If not, skip over them.
                    if (PointInPolygon(leftPoint, rovioMovementPoints) && PointInPolygon(rightPoint, rovioMovementPoints))
                        rovioMovementPoints = new DPoint[] { rovioMovementPoints[0], rovioMovementPoints[1], leftPoint, rightPoint, rovioMovementPoints[2] };
                }

                viewConePoints = rovioMovementPoints;
                Bitmap rotated = new Bitmap(bRovio.Width + 70, bRovio.Height + 70);
                rotated.SetResolution(bRovio.HorizontalResolution, bRovio.VerticalResolution);

                using (graphics = Graphics.FromImage(rotated))
                {
                    graphics.TranslateTransform(bRovio.Width / 2, bRovio.Height / 2);
                    graphics.RotateTransform((float)robot.cumulativeAngle);
                    graphics.TranslateTransform(-bRovio.Width / 2, -bRovio.Height / 2);
                    graphics.DrawImage(bRovio, new DPoint(0, 0));

                    picBoxRovio.Size = new Size(27, 24);
                    picBoxRovio.Image = rotated;

                    picBoxCone.Location = new DPoint(picBoxRovio.Location.X - (bCone.Width / 2) + (bRovio.Width / 2), picBoxRovio.Location.Y - bCone.Height + (bRovio.Height / 2));
                    picBoxCone.Size = new Size(900, 500);
                    picBoxCone.Image = rotated;

                    picBoxCone.Location = new DPoint(0, 0);
                    picBoxCone.Size = new Size(260, 300);
                }

                Bitmap newCone = new Bitmap(260, 300);
                using (graphics = Graphics.FromImage(newCone))
                {
                    graphics.FillPolygon(new SolidBrush(DColor.FromArgb(100, DColor.ForestGreen)), viewConePoints);
                    picBoxCone.Image = newCone;
                }
            }
        }
Beispiel #42
0
        private static SharpMap.Map InitializeVRT(ref int index, float angle)
        {
            SharpMap.Map map = new SharpMap.Map();
            int ind = index - 6;
            if (ind >= Vrts.Length) ind = 0;

            if (!System.IO.File.Exists(RelativePath + Vrts[ind]))
            {
                throw new System.Exception("Make sure the data is in the relative directory: " + RelativePath);
            }

            SharpMap.Layers.GdalRasterLayer layer = new SharpMap.Layers.GdalRasterLayer("VirtualRasterTable", RelativePath + Vrts[ind]);

            var ext = System.IO.Path.GetExtension(layer.Filename);
            map.Layers.Add(layer);
            _gdalSampleDataset = string.Format("'{0}'", ext != null ? ext.ToUpper() : string.Empty);
            map.ZoomToExtents();

            System.Drawing.Drawing2D.Matrix mat = new System.Drawing.Drawing2D.Matrix();
            mat.RotateAt(angle, map.WorldToImage(map.Center));
            map.MapTransform = mat;
            //index++;
            return map;
        }
Beispiel #43
0
        /// <summary>
        /// Find location of PicBox relative to the Rovio.
        /// </summary>
        /// <param name="picBox">Picture box to check.</param>
        /// <param name="rect">Rectangle of the picture box's object on screen</param>
        /// <param name="distance">Distance to object</param>
        /// <param name="multiplierOne">First multiplier to change X position by.</param>
        /// <param name="multiplierTwo">Second multiplier to change X position by.</param>
        private void FindRelativeLocation(PictureBox picBox, DRectangle rect, double distance, int multiplierOne, int multiplierTwo)
        {
            picBox.Location = new System.Drawing.Point(picBoxRovio.Location.X + rect.X + rect.Width, picBoxRovio.Location.Y - (int)(distance * 20 * 3));

            double totalFOV = distance * 100 * 0.93;
            double percentage = rect.X / (double)robot.cameraDimensions.X * 100;
            double newX = percentage * (totalFOV / 100);

            DPoint newPosition = new System.Drawing.Point(picBoxRovio.Location.X - ((int)totalFOV / 2) + (int)newX*2, picBox.Location.Y);
            using (matrix = new System.Drawing.Drawing2D.Matrix())
            {
                matrix.RotateAt((float)robot.cumulativeAngle, new System.Drawing.Point(picBoxRovio.Location.X + (picBoxRovio.Size.Width / 2), picBoxRovio.Location.Y + (picBoxRovio.Size.Height / 2)));
                matrix.Translate((float)-newX + 30f, -(float)(distance * multiplierOne * multiplierTwo));
                DPoint[] aPoints = { newPosition };
                matrix.TransformPoints(aPoints);
                picBox.Location = aPoints[0];
            }
        }
Beispiel #44
0
        private static SharpMap.Map InitializeGeoTiff(int index, float angle)
        {
            try
            {
                //Sample provided by Dan Brecht and Joel Wilson
                var map = new SharpMap.Map();
                map.BackColor = System.Drawing.Color.White;
                const string relativePath = "GeoData/GeoTiff/";

                SharpMap.Layers.GdalRasterLayer layer;

                switch (index)
                {
                    case 2:
                        layer = new SharpMap.Layers.GdalRasterLayer("GeoTiff", relativePath + "utm.tif");
                        layer.UseRotation = true;
                        map.Layers.Add(layer);
                        break;
                    case 3:
                        layer = new SharpMap.Layers.GdalRasterLayer("GeoTiff", relativePath + "utm.jp2");
                        layer.UseRotation = true;
                        map.Layers.Add(layer);
                        break;

                    case 4:
                        layer = new SharpMap.Layers.GdalRasterLayer("GeoTiff", relativePath + "world_raster_mod.tif");
                        layer.UseRotation = true;
                        map.Layers.Add(layer);
                        break;

                    default:
                        if (!System.IO.File.Exists(relativePath + "format01-image_a.tif"))
                        {
                            throw new System.Exception("Make sure the data is in the relative directory: " + relativePath);
                        }

                        layer = new SharpMap.Layers.GdalRasterLayer("GeoTiffA", relativePath + "format01-image_a.tif");
                        map.Layers.Add(layer);
                        layer = new SharpMap.Layers.GdalRasterLayer("GeoTiffB", relativePath + "format01-image_b.tif");
                        map.Layers.Add(layer);
                        layer = new SharpMap.Layers.GdalRasterLayer("GeoTiffC", relativePath + "format01-image_c.tif");
                        map.Layers.Add(layer);
                        layer = new SharpMap.Layers.GdalRasterLayer("GeoTiffD", relativePath + "format01-image_d.tif");
                        map.Layers.Add(layer);

                        SharpMap.Layers.VectorLayer shapeLayer;

                        if (!System.IO.File.Exists(relativePath + "outline.shp"))
                        {
                            throw new System.Exception("Make sure the data is in the relative directory: " + relativePath);
                        }

                        shapeLayer = new SharpMap.Layers.VectorLayer("outline", new SharpMap.Data.Providers.ShapeFile(relativePath + "outline.shp"));
                        shapeLayer.Style.Fill = System.Drawing.Brushes.Transparent;
                        shapeLayer.Style.Outline = System.Drawing.Pens.Black;
                        shapeLayer.Style.EnableOutline = true;
                        shapeLayer.Style.Enabled = true;
                        map.Layers.Add(shapeLayer);
                        break;
                }

                map.ZoomToExtents();

                System.Drawing.Drawing2D.Matrix mat = new System.Drawing.Drawing2D.Matrix();
                mat.RotateAt(angle, map.WorldToImage(map.Center));
                map.MapTransform = mat;

                if (_num > 5) _num = 1;
                _gdalSampleDataset = "GeoTiff" + _num;
                return map;
            }
            catch (System.TypeInitializationException ex)
            {
                if (ex.Message == "The type initializer for 'OSGeo.GDAL.GdalPINVOKE' threw an exception.")
                {
                    throw new System.Exception(
                        string.Format(
                            "The application threw a PINVOKE exception. You probably need to copy the unmanaged dll's to your bin directory. They are a part of fwtools {0}. You can download it from: http://home.gdal.org/fwtools/",
                            SharpMap.Layers.GdalRasterLayer.FWToolsVersion));
                }
                throw;
            }
        }
Beispiel #45
0
        public void Draw2dTextures(Draw2dData[] todraw, int textureid, float angle)
        {
            GL.PushAttrib(AttribMask.ColorBufferBit);
            GL.BindTexture(TextureTarget.Texture2D, textureid);
            GL.Enable(EnableCap.Texture2D);
            GL.Disable(EnableCap.DepthTest);

            VertexPositionTexture[] vertices;
            ushort[] indices;
            if (todraw.Length >= draw2dtexturesMAX)
            {
                vertices = new VertexPositionTexture[todraw.Length * 4];
                indices = new ushort[todraw.Length * 4];
            }
            else
            {
                if (draw2dtexturesVertices == null)
                {
                    draw2dtexturesVertices = new VertexPositionTexture[draw2dtexturesMAX * 4];
                    draw2dtexturesIndices = new ushort[draw2dtexturesMAX * 4];
                }
                vertices = draw2dtexturesVertices;
                indices = draw2dtexturesIndices;
            }
            ushort i = 0;
            foreach (Draw2dData v in todraw)
            {
                RectangleF rect;
                if (v.inAtlasId == null)
                {
                    rect = new RectangleF(0, 0, 1, 1);
                }
                else
                {
                    rect = TextureAtlas.TextureCoords2d(v.inAtlasId.Value, d_Terrain.texturesPacked);
                }
                float x2 = v.x1 + v.width;
                float y2 = v.y1 + v.height;

                PointF[] pnts = new PointF[4] {
                    new PointF(x2, y2),
                    new PointF(x2,v.y1),
                    new PointF(v.x1,v.y1),
                    new PointF(v.x1,y2)};
                if (angle != 0)
                {
                    System.Drawing.Drawing2D.Matrix mx=new System.Drawing.Drawing2D.Matrix();
                    mx.RotateAt(angle, new PointF(v.x1+v.width/2,v.y1+v.height/2));
                    mx.TransformPoints(pnts);
                }

                vertices[i] = new VertexPositionTexture(pnts[0].X, pnts[0].Y, 0, rect.Right, rect.Bottom, v.color);
                vertices[i + 1] = new VertexPositionTexture(pnts[1].X, pnts[1].Y, 0, rect.Right, rect.Top, v.color);
                vertices[i + 2] = new VertexPositionTexture(pnts[2].X, pnts[2].Y, 0, rect.Left, rect.Top, v.color);
                vertices[i + 3] = new VertexPositionTexture(pnts[3].X, pnts[3].Y, 0, rect.Left, rect.Bottom, v.color);
                indices[i] = i;
                indices[i + 1] = (ushort)(i + 1);
                indices[i + 2] = (ushort)(i + 2);
                indices[i + 3] = (ushort)(i + 3);
                i += 4;
            }
            GL.EnableClientState(ArrayCap.TextureCoordArray);
            GL.EnableClientState(ArrayCap.VertexArray);
            GL.EnableClientState(ArrayCap.ColorArray);
            unsafe
            {
                fixed (VertexPositionTexture* p = vertices)
                {
                    GL.VertexPointer(3, VertexPointerType.Float, StrideOfVertices, (IntPtr)(0 + (byte*)p));
                    GL.TexCoordPointer(2, TexCoordPointerType.Float, StrideOfVertices, (IntPtr)(12 + (byte*)p));
                    GL.ColorPointer(4, ColorPointerType.UnsignedByte, StrideOfVertices, (IntPtr)(20 + (byte*)p));
                    GL.DrawElements(BeginMode.Quads, i, DrawElementsType.UnsignedShort, indices);
                }
            }
            GL.DisableClientState(ArrayCap.TextureCoordArray);
            GL.DisableClientState(ArrayCap.VertexArray);
            GL.DisableClientState(ArrayCap.ColorArray);

            GL.Enable(EnableCap.DepthTest);
            GL.PopAttrib();
        }
        public Bitmap getImage(String fileName, int scaledResolution)
        {
            Bitmap source = null;
            Bitmap result = null;

            try {
                // Read the source image file and scale with temp image, store back
                // to source
                source = new Bitmap(Image.FromFile(fileName));

                BlackInvalidArea(source);

                result = new Bitmap(source.Width, source.Height, System.Drawing.Imaging.PixelFormat.Format24bppRgb);

                Graphics tempContext = Graphics.FromImage(result);
                //set the InterpolationMode to HighQualityBicubic to ensure a high
                //quality image once it is transformed
                tempContext.InterpolationMode = System.Drawing.Drawing2D.InterpolationMode.HighQualityBicubic;
                tempContext.Clear(Color.Black);

                // Setup rotation
                float rotationAngle = getImageRotationAngle(source);
                System.Drawing.Drawing2D.Matrix rotateMatrix = new System.Drawing.Drawing2D.Matrix();
                rotateMatrix.RotateAt(rotationAngle, new Point(result.Width / 2, result.Height / 2));
                tempContext.Transform = rotateMatrix;

                tempContext.DrawImage(source, 0, 0);
                tempContext.Flush();
                tempContext.Dispose();

                float chirality = getChirality(source);

                if (chirality < 0) {
                    // flip the image
                    int w = result.Width;
                    int h = result.Height;
                    source = new Bitmap(scaledResolution, scaledResolution, System.Drawing.Imaging.PixelFormat.Format24bppRgb);
                    Graphics resultContext = Graphics.FromImage(source);
                    resultContext.InterpolationMode = System.Drawing.Drawing2D.InterpolationMode.HighQualityBicubic;
                    //Flip image horizontally
                    result.RotateFlip(RotateFlipType.RotateNoneFlipX);
                    resultContext.DrawImage(result, 0, 0, scaledResolution, scaledResolution);
                }
                else {
                    source = new Bitmap(scaledResolution, scaledResolution, System.Drawing.Imaging.PixelFormat.Format24bppRgb);
                    Graphics resultContext = Graphics.FromImage(source);
                    resultContext.InterpolationMode = System.Drawing.Drawing2D.InterpolationMode.HighQualityBicubic;
                    resultContext.DrawImage(result, 0, 0, scaledResolution, scaledResolution);
                }
            }
            catch (Exception ex) {
                Console.Write("Failed to open: " + fileName + ", "
                        + ex.ToString());
            }
            return source;
        }
Beispiel #47
0
        public static SharpMap.Map InitializeMap(float angle)
        {
            //Initialize a new map of size 'imagesize'
            SharpMap.Map map = new SharpMap.Map();

            //Set up the countries layer
            SharpMap.Layers.VectorLayer layCountries = new SharpMap.Layers.VectorLayer("Countries");

            //Set the datasource to a shapefile in the App_data folder
            layCountries.DataSource = new SharpMap.Data.Providers.SpatiaLite(
                DataSource, "countries", "geom", "PK_UID");

            //Set fill-style to green
            layCountries.Style.Fill = new System.Drawing.SolidBrush(System.Drawing.Color.Green);
            //Set the polygons to have a black outline
            layCountries.Style.Outline = System.Drawing.Pens.Black;
            layCountries.Style.EnableOutline = true;

            //Set up a river layer
            SharpMap.Layers.VectorLayer layRivers = new SharpMap.Layers.VectorLayer("Rivers");
            //Set the datasource to a shapefile in the App_data folder
            layRivers.DataSource = new SharpMap.Data.Providers.SpatiaLite(
                DataSource, "rivers", "geom", "PK_UID");
            //Define a blue 3px wide pen
            layRivers.Style.Line = new System.Drawing.Pen(System.Drawing.Color.LightBlue, 2);
            layRivers.Style.Line.CompoundArray = new[] { 0.2f, 0.8f };
            layRivers.Style.Outline = new System.Drawing.Pen(System.Drawing.Color.DarkBlue, 3);
            layRivers.Style.EnableOutline = true;

            //Set up a cities layer
            SharpMap.Layers.VectorLayer layCities = new SharpMap.Layers.VectorLayer("Cities");
            //Set the datasource to the spatialite table
            layCities.DataSource = new SharpMap.Data.Providers.SpatiaLite(
                DataSource, "cities", "geom", "PK_UID");
            layCities.Style.SymbolScale = 0.8f;
            layCities.MaxVisible = 40;

            //Set up a country label layer
            SharpMap.Layers.LabelLayer layLabel = new SharpMap.Layers.LabelLayer("Country labels") 
            {
                DataSource = layCountries.DataSource,
                LabelColumn = "NAME",
                MultipartGeometryBehaviour = SharpMap.Layers.LabelLayer.MultipartGeometryBehaviourEnum.Largest,
                LabelFilter = SharpMap.Rendering.LabelCollisionDetection.ThoroughCollisionDetection,
                PriorityColumn = "POPDENS",
                Style = new SharpMap.Styles.LabelStyle
                {
                    ForeColor = System.Drawing.Color.White,
                    Font = new System.Drawing.Font(System.Drawing.FontFamily.GenericSerif, 12),
                    BackColor = new System.Drawing.SolidBrush(System.Drawing.Color.FromArgb(128, 255, 0, 0)),
                    HorizontalAlignment = SharpMap.Styles.LabelStyle.HorizontalAlignmentEnum.Center,
                    MaxVisible = 90,
                    MinVisible = 30,
                    CollisionDetection = true
                }
            };

            //Set up a city label layer
            SharpMap.Layers.LabelLayer layCityLabel = new SharpMap.Layers.LabelLayer("City labels")
            {
                DataSource = layCities.DataSource,
                LabelColumn = "name",
                PriorityColumn = "population",
                PriorityDelegate = delegate(SharpMap.Data.FeatureDataRow fdr) 
                { 
                    System.Int32 retVal = 10000000 * ( (System.String)fdr["capital"] == "Y" ? 1 : 0 );
                    return  retVal + System.Convert.ToInt32(fdr["population"]);
                },
                TextRenderingHint = System.Drawing.Text.TextRenderingHint.AntiAlias,
                SmoothingMode = System.Drawing.Drawing2D.SmoothingMode.AntiAlias,
                LabelFilter = SharpMap.Rendering.LabelCollisionDetection.ThoroughCollisionDetection,
                Style = new SharpMap.Styles.LabelStyle
                {
                    ForeColor = System.Drawing.Color.Black,
                    Font = new System.Drawing.Font(System.Drawing.FontFamily.GenericSerif, 11),
                    MaxVisible = layLabel.MinVisible,
                    HorizontalAlignment = SharpMap.Styles.LabelStyle.HorizontalAlignmentEnum.Left,
                    VerticalAlignment = SharpMap.Styles.LabelStyle.VerticalAlignmentEnum.Bottom,
                    Offset = new System.Drawing.PointF(3, 3),
                    Halo = new System.Drawing.Pen(System.Drawing.Color.Yellow, 2),
                    CollisionDetection = true
                }
            };

            var layRiverLabels = new SharpMap.Layers.LabelLayer("RiverLabels");
            layRiverLabels.DataSource = layRivers.DataSource;
            layRiverLabels.LabelColumn = "Name";
            layRiverLabels.PriorityDelegate = GetRiverLength;
            layRiverLabels.Style = new SharpMap.Styles.LabelStyle
                                       {
                                           Font = new System.Drawing.Font("Arial", 10, System.Drawing.FontStyle.Bold),
                                           Halo = new System.Drawing.Pen(System.Drawing.Color.Azure, 2),
                                           ForeColor = System.Drawing.Color.DarkCyan,
                                           IgnoreLength = true,
                                           Enabled = true,
                                           CollisionDetection = true,
                                          
                                       };
            layRiverLabels.LabelFilter = SharpMap.Rendering.LabelCollisionDetection.ThoroughCollisionDetection;

            //Add the layers to the map object.
            //The order we add them in are the order they are drawn, so we add the rivers last to put them on top
            map.Layers.Add(layCountries);
            map.Layers.Add(layRivers);
            map.Layers.Add(layCities);
            map.Layers.Add(layRiverLabels);
            map.Layers.Add(layLabel);
            map.Layers.Add(layCityLabel);

            //limit the zoom to 360 degrees width
            map.MaximumZoom = 360;
            map.BackColor = System.Drawing.Color.LightBlue;

            map.ZoomToExtents(); // = 360;
            //map.Center = new SharpMap.Geometries.Point(0, 0);
            var mat = new System.Drawing.Drawing2D.Matrix();
            mat.RotateAt(angle, map.WorldToImage(map.Center));
            map.MapTransform = mat;
            return map;

        }
Beispiel #48
0
        internal static SharpMap.Map InitializeMap(float angle, string[] filenames)
        {
            var map = new SharpMap.Map();

            try
            {
                foreach (var filename in filenames)
                {
                    var connectionString = string.Format("Data Source={0}", filename);
                    foreach (var provider in SharpMap.Data.Providers.SpatiaLite.GetSpatialTables(connectionString))
                    {
                        map.Layers.Add(
                            new SharpMap.Layers.VectorLayer(
                                string.Format("{0} - {1}", provider.Table, provider.GeometryColumn), provider) { Style = LayerTools.GetRandomVectorStyle() });
                    }
                }
                if (map.Layers.Count > 0)
                {
                    map.ZoomToExtents();

                    System.Drawing.Drawing2D.Matrix mat = new System.Drawing.Drawing2D.Matrix();
                    mat.RotateAt(angle, map.WorldToImage(map.Center));
                    map.MapTransform = mat;
                    return map;
                }
            }
            catch (System.Exception ex)
            {
                System.Diagnostics.Trace.WriteLine(ex.Message);
            }
            return null;
        }
        public static SharpMap.Map InitializeMap(float angle)
        {
            using (var ofn = new System.Windows.Forms.OpenFileDialog())
            {
                ofn.Filter = "All files|*.*";
                ofn.FilterIndex = 0;

                if (ofn.ShowDialog() == System.Windows.Forms.DialogResult.OK)
                {
                    var m = new SharpMap.Map();
                    var l = new SharpMap.Layers.GdiImageLayer(ofn.FileName);
                    m.Layers.Add(l);

                    m.ZoomToExtents();

                    var mat = new System.Drawing.Drawing2D.Matrix();
                    mat.RotateAt(angle, m.WorldToImage(m.Center));
                    m.MapTransform = mat;
                    m.MaximumExtents = m.GetExtents();
                    m.EnforceMaximumExtents = true;
                    return m;
                }
            }
            return null;

        }